def __init__(self,
options,
run_tracker,
target_roots,
requested_goals=None,
target_base=None,
build_graph=None,
build_file_parser=None,
address_mapper=None,
console_outstream=None,
scm=None,
workspace=None,
spec_excludes=None,
invalidation_report=None):
self._options = options
self.build_graph = build_graph
self.build_file_parser = build_file_parser
self.address_mapper = address_mapper
self.run_tracker = run_tracker
self._log = self.Log(run_tracker)
self._target_base = target_base or Target
self._products = Products()
self._buildroot = get_buildroot()
self._lock = OwnerPrintingPIDLockFile(
os.path.join(self._buildroot, '.pants.run'))
self._java_sysprops = None # Computed lazily.
self.requested_goals = requested_goals or []
self._console_outstream = console_outstream or sys.stdout
self._scm = scm or get_scm()
self._workspace = workspace or (ScmWorkspace(self._scm)
if self._scm else None)
self._spec_excludes = spec_excludes
self._replace_targets(target_roots)
self._synthetic_targets = defaultdict(list)
self._invalidation_report = invalidation_report
def __init__(self, options, run_tracker, target_roots,
requested_goals=None, target_base=None, build_graph=None,
build_file_parser=None, build_configuration=None,
address_mapper=None, console_outstream=None, scm=None,
workspace=None, invalidation_report=None, scheduler=None):
self._options = options
# We register a callback that will cause build graph edits to invalidate our caches, and we hold
# a handle directly to the callback function to ensure that it is not GC'd until the context is.
self.build_graph = build_graph
self._clear_target_cache_handle = self._clear_target_cache
self._targets_cache = dict()
self.build_graph.add_invalidation_callback(self._clear_target_cache_handle)
self._build_file_parser = build_file_parser
self.build_configuration = build_configuration
self.address_mapper = address_mapper
self.run_tracker = run_tracker
self._log = run_tracker.logger
self._target_base = target_base or Target
self._products = Products()
self._buildroot = get_buildroot()
self._source_roots = SourceRootConfig.global_instance().get_source_roots()
self._lock = OwnerPrintingInterProcessFileLock(os.path.join(self._buildroot, '.pants.workdir.file_lock'))
self._java_sysprops = None # Computed lazily.
self.requested_goals = requested_goals or []
self._console_outstream = console_outstream or sys.stdout.buffer
self._scm = scm or get_scm()
self._workspace = workspace or (ScmWorkspace(self._scm) if self._scm else None)
self._replace_targets(target_roots)
self._invalidation_report = invalidation_report
self._scheduler = scheduler
def __init__(self,
options,
run_tracker,
target_roots,
requested_goals=None,
target_base=None,
build_graph=None,
build_file_parser=None,
address_mapper=None,
console_outstream=None,
scm=None,
workspace=None,
invalidation_report=None):
self._options = options
self.build_graph = build_graph
self.build_file_parser = build_file_parser
self.address_mapper = address_mapper
self.run_tracker = run_tracker
self._log = self.Log(run_tracker)
self._target_base = target_base or Target
self._products = Products()
self._buildroot = get_buildroot()
self._source_roots = SourceRootConfig.global_instance(
).get_source_roots()
self._lock = OwnerPrintingInterProcessFileLock(
os.path.join(self._buildroot, '.pants.workdir.file_lock'))
self._java_sysprops = None # Computed lazily.
self.requested_goals = requested_goals or []
self._console_outstream = console_outstream or sys.stdout
self._scm = scm or get_scm()
self._workspace = workspace or (ScmWorkspace(self._scm)
if self._scm else None)
self._replace_targets(target_roots)
self._invalidation_report = invalidation_report
def __init__(self,
config,
options,
run_tracker,
target_roots,
requested_goals=None,
lock=None,
log=None,
target_base=None,
build_graph=None,
build_file_parser=None):
self._config = config
self._options = options
self.build_graph = build_graph
self.build_file_parser = build_file_parser
self.run_tracker = run_tracker
self._lock = lock or Lock.unlocked()
self._log = log or Context.Log(run_tracker)
self._target_base = target_base or Target
self._state = {}
self._products = Products()
self._buildroot = get_buildroot()
self._java_sysprops = None # Computed lazily.
self.requested_goals = requested_goals or []
self.replace_targets(target_roots)
def __init__(self,
config,
options,
run_tracker,
target_roots,
requested_goals=None,
lock=None,
log=None,
target_base=None,
build_graph=None,
build_file_parser=None,
address_mapper=None,
console_outstream=None,
scm=None,
workspace=None):
self._config = config
self._options = options
self.build_graph = build_graph
self.build_file_parser = build_file_parser
self.address_mapper = address_mapper
self.run_tracker = run_tracker
self._lock = lock or Lock.unlocked()
self._log = log or Context.Log(run_tracker)
self._target_base = target_base or Target
self._products = Products()
self._buildroot = get_buildroot()
self._java_sysprops = None # Computed lazily.
self.requested_goals = requested_goals or []
self._console_outstream = console_outstream or sys.stdout
self._scm = scm or get_scm()
self._workspace = workspace or (ScmWorkspace(self._scm)
if self._scm else None)
self.replace_targets(target_roots)
def __init__(self,
options,
run_tracker,
target_roots,
requested_goals=None,
target_base=None,
build_graph=None,
build_file_parser=None,
address_mapper=None,
console_outstream=None,
scm=None,
workspace=None,
spec_excludes=None,
invalidation_report=None):
"""
:API: public
"""
deprecated_conditional(
lambda: spec_excludes is not None, '0.0.75',
'Use address_mapper#build_ignore_patterns instead.')
self._options = options
self.build_graph = build_graph
self.build_file_parser = build_file_parser
self.address_mapper = address_mapper
self.run_tracker = run_tracker
self._log = self.Log(run_tracker)
self._target_base = target_base or Target
self._products = Products()
self._buildroot = get_buildroot()
self._source_roots = SourceRootConfig.global_instance(
).get_source_roots()
self._lock = OwnerPrintingPIDLockFile(
os.path.join(self._buildroot, '.pants.run'))
self._java_sysprops = None # Computed lazily.
self.requested_goals = requested_goals or []
self._console_outstream = console_outstream or sys.stdout
self._scm = scm or get_scm()
self._workspace = workspace or (ScmWorkspace(self._scm)
if self._scm else None)
self._spec_excludes = spec_excludes
self._replace_targets(target_roots)
self._invalidation_report = invalidation_report
def __init__(self,
config,
options,
run_tracker,
target_roots,
requested_goals=None,
log=None,
target_base=None,
build_graph=None,
build_file_parser=None,
address_mapper=None,
console_outstream=None,
scm=None,
workspace=None,
spec_excludes=None):
self._config = config
self._options = options
self.build_graph = build_graph
self.build_file_parser = build_file_parser
self.address_mapper = address_mapper
self.run_tracker = run_tracker
self._log = log or Context.Log(run_tracker)
self._target_base = target_base or Target
self._products = Products()
self._buildroot = get_buildroot()
self._lock = OwnerPrintingPIDLockFile(
os.path.join(self._buildroot, '.pants.run'))
self._java_sysprops = None # Computed lazily.
self.requested_goals = requested_goals or []
self._console_outstream = console_outstream or sys.stdout
self._scm = scm or get_scm()
self._workspace = workspace or (ScmWorkspace(self._scm)
if self._scm else None)
self._spec_excludes = spec_excludes
self._target_roots_have_been_accessed = False
self.replace_targets(target_roots)
def setUp(self):
super().setUp()
self.products = Products()
class ProductsTest(TestBase):
def setUp(self):
super().setUp()
self.products = Products()
def test_require(self):
self.products.require('foo')
self.assertTrue(self.products.isrequired('foo'))
self.assertFalse(self.products.isrequired('bar'))
# require should not cross-contaminate require_data
self.assertFalse(self.products.is_required_data('foo'))
self.assertFalse(self.products.is_required_data('bar'))
def test_get(self):
foo_product_mapping1 = self.products.get('foo')
foo_product_mapping2 = self.products.get('foo')
self.assertIsInstance(foo_product_mapping1, Products.ProductMapping)
self.assertIs(foo_product_mapping1, foo_product_mapping2)
def test_get_does_not_require(self):
self.assertFalse(self.products.isrequired('foo'))
self.products.get('foo')
self.assertFalse(self.products.isrequired('foo'))
self.products.require('foo')
self.assertTrue(self.products.isrequired('foo'))
def test_require_data(self):
self.products.require_data('foo')
self.assertTrue(self.products.is_required_data('foo'))
self.assertFalse(self.products.is_required_data('bar'))
# require_data should not cross-contaminate require
self.assertFalse(self.products.isrequired('foo'))
self.assertFalse(self.products.isrequired('bar'))
def test_get_data(self):
self.assertIsNone(self.products.get_data('foo'))
data1 = self.products.get_data('foo', dict)
data2 = self.products.get_data('foo', dict)
self.assertIsInstance(data1, dict)
self.assertIs(data1, data2)
def test_get_data_does_not_require_data(self):
self.assertFalse(self.products.is_required_data('foo'))
self.products.get_data('foo')
self.assertFalse(self.products.is_required_data('foo'))
self.products.require_data('foo')
self.assertTrue(self.products.is_required_data('foo'))
def test_register_data(self):
data = {}
self.assertIs(data, self.products.register_data('foo', data))
with self.assertRaises(ProductError):
self.products.register_data('foo', data)
def test_empty_products(self):
foo_product_mapping = self.products.get('foo')
self.assertFalse(foo_product_mapping)
@contextmanager
def add_products(self, context_products, product_type, target, *products):
product_mapping = context_products.get(product_type)
with temporary_dir() as outdir:
def create_product(product):
with safe_open(os.path.join(outdir, product), mode='w') as fp:
fp.write(product)
return product
product_mapping.add(
target, outdir,
[create_product(product) for product in products])
yield temporary_dir
def test_non_empty_products(self):
target = self.make_target('c')
with self.add_products(self.products, 'foo', target, 'a.class'):
foo_product_mapping = self.products.get('foo')
self.assertTrue(foo_product_mapping)
def test_empty_data(self):
foo_product_mapping = self.products.get_data('foo')
self.assertFalse(foo_product_mapping)
@contextmanager
def add_data(self, context_products, data_type, target, *products):
make_products = lambda: defaultdict(MultipleRootedProducts)
data_by_target = context_products.get_data(data_type, make_products)
with temporary_dir() as outdir:
def create_product(product):
abspath = os.path.join(outdir, product)
with safe_open(abspath, mode='w') as fp:
fp.write(product)
return abspath
data_by_target[target].add_abs_paths(
outdir, [create_product(product) for product in products])
yield temporary_dir
def test_non_empty_data(self):
target = self.make_target('c')
with self.add_data(self.products, 'foo', target, 'a.class'):
foo_product_mapping = self.products.get_data('foo')
self.assertTrue(foo_product_mapping)
def setUp(self): super(ProductsTest, self).setUp() self.products = Products()
def setUp(self): super(ProductsTest, self).setUp() self.products = Products()
class ProductsTest(BaseTest):
def setUp(self):
super(ProductsTest, self).setUp()
self.products = Products()
def test_require(self):
self.products.require('foo')
self.assertTrue(self.products.isrequired('foo'))
self.assertFalse(self.products.isrequired('bar'))
# require should not cross-contaminate require_data
self.assertFalse(self.products.is_required_data('foo'))
self.assertFalse(self.products.is_required_data('bar'))
def test_get(self):
foo_product_mapping1 = self.products.get('foo')
foo_product_mapping2 = self.products.get('foo')
self.assertIsInstance(foo_product_mapping1, Products.ProductMapping)
self.assertIs(foo_product_mapping1, foo_product_mapping2)
def test_get_does_not_require(self):
self.assertFalse(self.products.isrequired('foo'))
self.products.get('foo')
self.assertFalse(self.products.isrequired('foo'))
self.products.require('foo')
self.assertTrue(self.products.isrequired('foo'))
def test_require_data(self):
self.products.require_data('foo')
self.assertTrue(self.products.is_required_data('foo'))
self.assertFalse(self.products.is_required_data('bar'))
# require_data should not cross-contaminate require
self.assertFalse(self.products.isrequired('foo'))
self.assertFalse(self.products.isrequired('bar'))
def test_get_data(self):
self.assertIsNone(self.products.get_data('foo'))
data1 = self.products.get_data('foo', dict)
data2 = self.products.get_data('foo', dict)
self.assertIsInstance(data1, dict)
self.assertIs(data1, data2)
def test_get_data_does_not_require_data(self):
self.assertFalse(self.products.is_required_data('foo'))
self.products.get_data('foo')
self.assertFalse(self.products.is_required_data('foo'))
self.products.require_data('foo')
self.assertTrue(self.products.is_required_data('foo'))
def test_empty_products(self):
foo_product_mapping = self.products.get('foo')
self.assertFalse(foo_product_mapping)
def test_non_empty_products(self):
target = self.make_target('c')
with self.add_products(self.products, 'foo', target, 'a.class'):
foo_product_mapping = self.products.get('foo')
self.assertTrue(foo_product_mapping)
def test_empty_data(self):
foo_product_mapping = self.products.get_data('foo')
self.assertFalse(foo_product_mapping)
def test_non_empty_data(self):
target = self.make_target('c')
with self.add_data(self.products, 'foo', target, 'a.class'):
foo_product_mapping = self.products.get_data('foo')
self.assertTrue(foo_product_mapping)
class ProductsTest(TestBase):
def setUp(self):
super(ProductsTest, self).setUp()
self.products = Products()
def test_require(self):
self.products.require('foo')
self.assertTrue(self.products.isrequired('foo'))
self.assertFalse(self.products.isrequired('bar'))
# require should not cross-contaminate require_data
self.assertFalse(self.products.is_required_data('foo'))
self.assertFalse(self.products.is_required_data('bar'))
def test_get(self):
foo_product_mapping1 = self.products.get('foo')
foo_product_mapping2 = self.products.get('foo')
self.assertIsInstance(foo_product_mapping1, Products.ProductMapping)
self.assertIs(foo_product_mapping1, foo_product_mapping2)
def test_get_does_not_require(self):
self.assertFalse(self.products.isrequired('foo'))
self.products.get('foo')
self.assertFalse(self.products.isrequired('foo'))
self.products.require('foo')
self.assertTrue(self.products.isrequired('foo'))
def test_require_data(self):
self.products.require_data('foo')
self.assertTrue(self.products.is_required_data('foo'))
self.assertFalse(self.products.is_required_data('bar'))
# require_data should not cross-contaminate require
self.assertFalse(self.products.isrequired('foo'))
self.assertFalse(self.products.isrequired('bar'))
def test_get_data(self):
self.assertIsNone(self.products.get_data('foo'))
data1 = self.products.get_data('foo', dict)
data2 = self.products.get_data('foo', dict)
self.assertIsInstance(data1, dict)
self.assertIs(data1, data2)
def test_get_data_does_not_require_data(self):
self.assertFalse(self.products.is_required_data('foo'))
self.products.get_data('foo')
self.assertFalse(self.products.is_required_data('foo'))
self.products.require_data('foo')
self.assertTrue(self.products.is_required_data('foo'))
def test_register_data(self):
data = {}
self.assertIs(data, self.products.register_data('foo', data))
with self.assertRaises(ProductError):
self.products.register_data('foo', data)
def test_empty_products(self):
foo_product_mapping = self.products.get('foo')
self.assertFalse(foo_product_mapping)
@contextmanager
def add_products(self, context_products, product_type, target, *products):
product_mapping = context_products.get(product_type)
with temporary_dir() as outdir:
def create_product(product):
with safe_open(os.path.join(outdir, product), mode='w') as fp:
fp.write(product)
return product
product_mapping.add(target, outdir, [create_product(product) for product in products])
yield temporary_dir
def test_non_empty_products(self):
target = self.make_target('c')
with self.add_products(self.products, 'foo', target, 'a.class'):
foo_product_mapping = self.products.get('foo')
self.assertTrue(foo_product_mapping)
def test_empty_data(self):
foo_product_mapping = self.products.get_data('foo')
self.assertFalse(foo_product_mapping)
@contextmanager
def add_data(self, context_products, data_type, target, *products):
make_products = lambda: defaultdict(MultipleRootedProducts)
data_by_target = context_products.get_data(data_type, make_products)
with temporary_dir() as outdir:
def create_product(product):
abspath = os.path.join(outdir, product)
with safe_open(abspath, mode='w') as fp:
fp.write(product)
return abspath
data_by_target[target].add_abs_paths(outdir, [create_product(product) for product in products])
yield temporary_dir
def test_non_empty_data(self):
target = self.make_target('c')
with self.add_data(self.products, 'foo', target, 'a.class'):
foo_product_mapping = self.products.get_data('foo')
self.assertTrue(foo_product_mapping)
class ProductsTest(BaseTest):
def setUp(self):
super(ProductsTest, self).setUp()
self.products = Products()
def test_require(self):
self.products.require('foo')
self.assertTrue(self.products.isrequired('foo'))
self.assertFalse(self.products.isrequired('bar'))
# require should not cross-contaminate require_data
self.assertFalse(self.products.is_required_data('foo'))
self.assertFalse(self.products.is_required_data('bar'))
def test_get(self):
foo_product_mapping1 = self.products.get('foo')
foo_product_mapping2 = self.products.get('foo')
self.assertIsInstance(foo_product_mapping1, Products.ProductMapping)
self.assertIs(foo_product_mapping1, foo_product_mapping2)
def test_get_does_not_require(self):
self.assertFalse(self.products.isrequired('foo'))
self.products.get('foo')
self.assertFalse(self.products.isrequired('foo'))
self.products.require('foo')
self.assertTrue(self.products.isrequired('foo'))
def test_require_data(self):
self.products.require_data('foo')
self.assertTrue(self.products.is_required_data('foo'))
self.assertFalse(self.products.is_required_data('bar'))
# require_data should not cross-contaminate require
self.assertFalse(self.products.isrequired('foo'))
self.assertFalse(self.products.isrequired('bar'))
def test_get_data(self):
self.assertIsNone(self.products.get_data('foo'))
data1 = self.products.get_data('foo', dict)
data2 = self.products.get_data('foo', dict)
self.assertIsInstance(data1, dict)
self.assertIs(data1, data2)
def test_get_data_does_not_require_data(self):
self.assertFalse(self.products.is_required_data('foo'))
self.products.get_data('foo')
self.assertFalse(self.products.is_required_data('foo'))
self.products.require_data('foo')
self.assertTrue(self.products.is_required_data('foo'))
def test_empty_products(self):
foo_product_mapping = self.products.get('foo')
self.assertFalse(foo_product_mapping)
def test_non_empty_products(self):
target = self.make_target('c')
with self.add_products(self.products, 'foo', target, 'a.class'):
foo_product_mapping = self.products.get('foo')
self.assertTrue(foo_product_mapping)
def test_empty_data(self):
foo_product_mapping = self.products.get_data('foo')
self.assertFalse(foo_product_mapping)
def test_non_empty_data(self):
target = self.make_target('c')
with self.add_data(self.products, 'foo', target, 'a.class'):
foo_product_mapping = self.products.get_data('foo')
self.assertTrue(foo_product_mapping)
def setUp(self): self.products = Products()
class ProductsTest(unittest.TestCase):
def setUp(self):
self.products = Products()
def test_require(self):
self.products.require('foo')
predicate = self.products.isrequired('foo')
self.assertIsNotNone(predicate)
self.assertFalse(predicate(42))
self.assertIsNone(self.products.isrequired('bar'))
# require should not cross-contaminate require_data
self.assertFalse(self.products.is_required_data('foo'))
self.assertFalse(self.products.is_required_data('bar'))
def test_require_predicate(self):
self.products.require('foo', predicate=lambda x: x == 42)
predicate = self.products.isrequired('foo')
self.assertIsNotNone(predicate)
self.assertTrue(predicate(42))
self.assertFalse(predicate(0))
def test_require_multiple_predicates(self):
self.products.require('foo', predicate=lambda x: x == 1)
self.products.require('foo', predicate=lambda x: x == 2)
self.products.require('foo', predicate=lambda x: x == 3)
predicate = self.products.isrequired('foo')
self.assertIsNotNone(predicate)
self.assertFalse(predicate(0))
self.assertTrue(predicate(1))
self.assertTrue(predicate(2))
self.assertTrue(predicate(3))
self.assertFalse(predicate(4))
def test_get(self):
foo_product_mapping1 = self.products.get('foo')
foo_product_mapping2 = self.products.get('foo')
self.assertIsInstance(foo_product_mapping1, Products.ProductMapping)
self.assertIs(foo_product_mapping1, foo_product_mapping2)
def test_get_does_not_require(self):
self.assertIsNone(self.products.isrequired('foo'))
self.products.get('foo')
self.assertIsNone(self.products.isrequired('foo'))
self.products.require('foo')
self.assertIsNotNone(self.products.isrequired('foo'))
def test_require_data(self):
self.products.require_data('foo')
self.assertTrue(self.products.is_required_data('foo'))
self.assertFalse(self.products.is_required_data('bar'))
# require_data should not cross-contaminate require
self.assertIsNone(self.products.isrequired('foo'))
self.assertIsNone(self.products.isrequired('bar'))
def test_get_data(self):
self.assertIsNone(self.products.get_data('foo'))
data1 = self.products.get_data('foo', dict)
data2 = self.products.get_data('foo', dict)
self.assertIsInstance(data1, dict)
self.assertIs(data1, data2)
def test_get_data_does_not_require_data(self):
self.assertFalse(self.products.is_required_data('foo'))
self.products.get_data('foo')
self.assertFalse(self.products.is_required_data('foo'))
self.products.require_data('foo')
self.assertTrue(self.products.is_required_data('foo'))
