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332
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4.36M
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stringlengths 19
2.2M
| total_program_units
int64 1
9.57k
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int64 0
4.2k
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float64 0
7.89k
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float64 0
7.89k
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float64 0
130
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float64 0
176
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48
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5.37k
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299
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144,248 |
Kuniwak/vint
|
Kuniwak_vint/test/unit/vint/linting/test_lint_target.py
|
test.unit.vint.linting.test_lint_target.TestLintTarget
|
class TestLintTarget(unittest.TestCase):
def test_file(self):
lint_target = LintTargetFile(Fixture.FILE.value)
bytes_seq = lint_target.read()
self.assertIsNotNone(bytes_seq)
self.assertEqual(Fixture.FILE.value, lint_target.path)
def test_buffered_stream(self):
alternate_path = Path('dummy'),
lint_target = LintTargetBufferedStream(
alternate_path=alternate_path,
buffered_io=BytesIO()
)
bytes_seq = lint_target.read()
self.assertIsNotNone(bytes_seq)
self.assertEqual(alternate_path, lint_target.path)
def test_cached(self):
path_stub = Path('stub')
lint_target = CachedLintTarget(LintTargetStub(path_stub, bytes()))
bytes_seq = lint_target.read()
self.assertIsNotNone(bytes_seq)
self.assertEqual(path_stub, lint_target.path)
|
class TestLintTarget(unittest.TestCase):
def test_file(self):
pass
def test_buffered_stream(self):
pass
def test_cached(self):
pass
| 4 | 0 | 8 | 1 | 7 | 0 | 1 | 0 | 1 | 7 | 5 | 0 | 3 | 0 | 3 | 75 | 28 | 7 | 21 | 12 | 17 | 0 | 18 | 12 | 14 | 1 | 2 | 0 | 3 |
144,249 |
Kuniwak/vint
|
Kuniwak_vint/test/unit/vint/linting/test_lint_target.py
|
test.unit.vint.linting.test_lint_target.LintTargetStub
|
class LintTargetStub(AbstractLintTarget):
def __init__(self, path, bytes_seq): # type: (Path, bytes) -> None
super(LintTargetStub, self).__init__(path)
self.bytes_seq = bytes_seq
def read(self): # type: () -> bytes
return self.bytes_seq
|
class LintTargetStub(AbstractLintTarget):
def __init__(self, path, bytes_seq):
pass
def read(self):
pass
| 3 | 0 | 3 | 0 | 3 | 1 | 1 | 0.33 | 1 | 1 | 0 | 0 | 2 | 1 | 2 | 4 | 8 | 2 | 6 | 4 | 3 | 2 | 6 | 4 | 3 | 1 | 2 | 0 | 2 |
144,250 |
Kuniwak/vint
|
Kuniwak_vint/test/unit/vint/linting/test_lint_target.py
|
test.unit.vint.linting.test_lint_target.Fixture
|
class Fixture(enum.Enum):
FILE = Path('test', 'fixture', 'lint_target.vim')
|
class Fixture(enum.Enum):
pass
| 1 | 0 | 0 | 0 | 0 | 0 | 0 | 0 | 1 | 0 | 0 | 0 | 0 | 0 | 0 | 49 | 2 | 0 | 2 | 2 | 1 | 0 | 2 | 2 | 1 | 0 | 4 | 0 | 0 |
144,251 |
Kuniwak/vint
|
Kuniwak_vint/test/unit/vint/linting/test_level.py
|
test.unit.vint.linting.test_level.TestLevel
|
class TestLevel(unittest.TestCase):
def test_is_level_enabled_with_same_level(self):
self.assertTrue(is_level_enabled(Level.WARNING, Level.WARNING))
def test_is_level_enabled_with_lower_level(self):
self.assertFalse(is_level_enabled(Level.WARNING, Level.ERROR))
def test_is_level_enabled_with_higher_level(self):
self.assertTrue(is_level_enabled(Level.ERROR, Level.STYLE_PROBLEM))
|
class TestLevel(unittest.TestCase):
def test_is_level_enabled_with_same_level(self):
pass
def test_is_level_enabled_with_lower_level(self):
pass
def test_is_level_enabled_with_higher_level(self):
pass
| 4 | 0 | 2 | 0 | 2 | 0 | 1 | 0 | 1 | 1 | 1 | 0 | 3 | 0 | 3 | 75 | 9 | 2 | 7 | 4 | 3 | 0 | 7 | 4 | 3 | 1 | 2 | 0 | 3 |
144,252 |
Kuniwak/vint
|
Kuniwak_vint/test/unit/vint/linting/test_file_filter.py
|
test.unit.vint.linting.test_file_filter.TestFileFilter
|
class TestFileFilter(unittest.TestCase):
def test_find_vim_script_by_given_no_file_paths(self):
file_paths_to_find = []
got_file_paths = map(str, find_vim_script(file_paths_to_find))
expected_file_paths = []
self.assertEqual(set(expected_file_paths), set(got_file_paths))
def test_find_vim_script_by_given_a_file_path(self):
file_paths_to_find = [
get_fixture_path('1.vim'),
]
got_file_paths = map(str, find_vim_script(file_paths_to_find))
expected_file_paths = map(str, map(get_fixture_path, [
'1.vim',
]))
self.assertEqual(set(expected_file_paths), set(got_file_paths))
def test_find_vim_script_by_given_nested_dir(self):
file_paths_to_find = [
FIXTURE_PATH_BASE,
]
got_file_paths = map(str, find_vim_script(file_paths_to_find))
expected_file_paths = map(str, map(get_fixture_path, [
'.gvimrc',
'.vimrc',
'_gvimrc',
'_vimrc',
'1.vim',
'2.vim',
os.path.join('sub', '3.vim'),
os.path.join('sub', '4.vim'),
]))
self.assertEqual(set(expected_file_paths), set(got_file_paths))
def test_find_vim_script_by_given_a_vim_script_unlinke_file_path(self):
file_paths_to_find = [
# We should pass through when given Vim script unlike file path.
# It makes checking a file on user-dependent naming policy
# convinience.
get_fixture_path('not_vim_script'),
]
got_file_paths = map(str, find_vim_script(file_paths_to_find))
expected_file_paths = map(str, map(get_fixture_path, [
'not_vim_script',
]))
self.assertEqual(set(expected_file_paths), set(got_file_paths))
def test_find_vim_script_by_given_several_vim_script(self):
file_paths_to_find = [
get_fixture_path('1.vim'),
get_fixture_path('sub/3.vim'),
]
got_file_paths = map(str, find_vim_script(file_paths_to_find))
expected_file_paths = map(str, map(get_fixture_path, [
'1.vim',
'sub/3.vim',
]))
self.assertEqual(set(expected_file_paths), set(got_file_paths))
|
class TestFileFilter(unittest.TestCase):
def test_find_vim_script_by_given_no_file_paths(self):
pass
def test_find_vim_script_by_given_a_file_path(self):
pass
def test_find_vim_script_by_given_nested_dir(self):
pass
def test_find_vim_script_by_given_a_vim_script_unlinke_file_path(self):
pass
def test_find_vim_script_by_given_several_vim_script(self):
pass
| 6 | 0 | 13 | 2 | 10 | 1 | 1 | 0.06 | 1 | 3 | 0 | 0 | 5 | 0 | 5 | 77 | 72 | 18 | 51 | 21 | 45 | 3 | 26 | 21 | 20 | 1 | 2 | 0 | 5 |
144,253 |
Kuniwak/vint
|
Kuniwak_vint/test/unit/vint/linting/test_env.py
|
test.unit.vint.linting.test_env.TestEnv
|
class TestEnv(unittest.TestCase):
def test_build_environment(self):
cwd = Path('path', 'to', 'cwd')
home = Path('/', 'home', 'user')
xdg_config_home = Path('/', 'home', 'user', '.config')
cmdargs = {
'verbose': True,
'warning': True,
'max_violations': 10,
'files': [str(FIXTURE_PATH)],
}
expected_env = {
'cmdargs': {
'files': [str(FIXTURE_PATH)],
'verbose': True,
'warning': True,
'max_violations': 10,
},
'file_paths': [
Path(FIXTURE_PATH, '1.vim'),
Path(FIXTURE_PATH, '2.vim'),
Path(FIXTURE_PATH, 'sub', '3.vim'),
Path(FIXTURE_PATH, 'sub', '4.vim'),
],
'home_path': home,
'xdg_config_home': xdg_config_home,
'cwd': cwd,
}
# we should mock os.getcwd() because env get the cwd by os.getcwd()
with mock.patch('os.getcwd') as mocked_getcwd:
mocked_getcwd.return_value = str(cwd)
with mock.patch('os.path.expanduser') as mocked_expanduser:
mocked_expanduser.return_value = str(home)
with mock.patch.dict('os.environ', {'XDG_CONFIG_HOME': '/home/user/.config'}):
env = build_environment(cmdargs)
self.maxDiff = 1000
self.assertEqual(env, expected_env)
|
class TestEnv(unittest.TestCase):
def test_build_environment(self):
pass
| 2 | 0 | 42 | 6 | 35 | 1 | 1 | 0.03 | 1 | 2 | 0 | 0 | 1 | 1 | 1 | 73 | 43 | 6 | 36 | 11 | 34 | 1 | 15 | 9 | 13 | 1 | 2 | 3 | 1 |
144,254 |
Kuniwak/vint
|
Kuniwak_vint/test/unit/vint/linting/policy/test_abstract_policy.py
|
test.unit.vint.linting.policy.test_abstract_policy.TestAbstractPolicy
|
class TestAbstractPolicy(unittest.TestCase):
def test_listen_node_types(self):
policy = AbstractPolicy()
self.assertEqual(policy.listen_node_types(), [])
def test_create_violation_report(self):
pos = {
'col': 3,
'i': 24,
'lnum': 3,
}
node = {'pos': pos}
lint_context = {
'lint_target': LintTargetBufferedStream(
alternate_path=Path('path/to/file.vim'),
buffered_io=BytesIO(),
)
}
expected_violation = {
'name': 'ConcretePolicy',
'level': 0,
'description': 'Found something invalid',
'reference': 'http://example.com',
'position': {
'column': 3,
'line': 3,
'path': Path('path/to/file.vim'),
},
}
policy = ConcretePolicy()
self.assertEqual(
policy.create_violation_report(node, lint_context),
expected_violation)
def test_get_policy_options(self):
policy = ConcretePolicy()
expected_options = {}
lint_context = {
'config': {},
}
self.assertEqual(
policy.get_policy_options(lint_context),
expected_options)
expected_options = {}
lint_context = {
'config': {'policies': {}},
}
self.assertEqual(
policy.get_policy_options(lint_context),
expected_options)
expected_options = {'someoption': True}
lint_context = {
'config': {'policies': {'ConcretePolicy': expected_options}},
}
self.assertEqual(
policy.get_policy_options(lint_context),
expected_options)
def test_get_policy_members(self):
policy = ConcretePolicy()
self.assertEqual(policy.name, 'ConcretePolicy')
self.assertEqual(policy.description, 'Found something invalid')
|
class TestAbstractPolicy(unittest.TestCase):
def test_listen_node_types(self):
pass
def test_create_violation_report(self):
pass
def test_get_policy_options(self):
pass
def test_get_policy_members(self):
pass
| 5 | 0 | 16 | 2 | 15 | 0 | 1 | 0 | 1 | 4 | 3 | 0 | 4 | 0 | 4 | 76 | 69 | 10 | 59 | 15 | 54 | 0 | 26 | 15 | 21 | 1 | 2 | 0 | 4 |
144,255 |
Kuniwak/vint
|
Kuniwak_vint/test/unit/vint/linting/policy/test_abstract_policy.py
|
test.unit.vint.linting.policy.test_abstract_policy.ConcretePolicy
|
class ConcretePolicy(AbstractPolicy):
description = 'Found something invalid'
reference = 'http://example.com'
level = 0
|
class ConcretePolicy(AbstractPolicy):
pass
| 1 | 0 | 0 | 0 | 0 | 0 | 0 | 0 | 1 | 0 | 0 | 0 | 0 | 0 | 0 | 7 | 4 | 0 | 4 | 4 | 3 | 0 | 4 | 4 | 3 | 0 | 2 | 0 | 0 |
144,256 |
Kuniwak/vint
|
Kuniwak_vint/test/unit/vint/linting/policy/reference/test_googlevimscriptstyleguide.py
|
test.unit.vint.linting.policy.reference.test_googlevimscriptstyleguide.TestGoogleVimScriptStyleGuide
|
class TestGoogleVimScriptStyleGuide(unittest.TestCase):
def test_get_reference_source(self):
actual_ref_source = get_reference_source('STRINGS')
expected_ref_source = 'Google VimScript Style Guide (Strings)'
self.assertEqual(actual_ref_source, expected_ref_source)
|
class TestGoogleVimScriptStyleGuide(unittest.TestCase):
def test_get_reference_source(self):
pass
| 2 | 0 | 5 | 1 | 4 | 0 | 1 | 0 | 1 | 0 | 0 | 0 | 1 | 0 | 1 | 73 | 6 | 1 | 5 | 4 | 3 | 0 | 5 | 4 | 3 | 1 | 2 | 0 | 1 |
144,257 |
Kuniwak/vint
|
Kuniwak_vint/test/unit/vint/linting/formatter/test_json_formatter.py
|
test.unit.vint.linting.formatter.test_json_formatter.TestJSONFormatter
|
class TestJSONFormatter(FormatterAssertion, unittest.TestCase):
def test_format_violations(self):
formatter = JSONFormatter()
violations = [
{
'name': 'ProhibitSomethingEvil',
'level': Level.WARNING,
'description': 'this code is tooooo evil',
'reference': 'me',
'position': {
'line': 1,
'column': 2,
'path': str(Path('path', 'to', 'file1'))
},
},
{
'name': 'ProhibitSomethingDangerous',
'level': Level.WARNING,
'description': 'this code is tooooo dangerous',
'reference': 'you',
'position': {
'line': 11,
'column': 21,
'path': str(Path('path', 'to', 'file2'))
},
},
]
expected_output = [
{
'policy_name': 'ProhibitSomethingEvil',
'severity': 'warning',
'description': 'this code is tooooo evil',
'reference': 'me',
'line_number': 1,
'column_number': 2,
'file_path': str(Path('path', 'to', 'file1')),
},
{
'policy_name': 'ProhibitSomethingDangerous',
'severity': 'warning',
'description': 'this code is tooooo dangerous',
'reference': 'you',
'line_number': 11,
'column_number': 21,
'file_path': str(Path('path', 'to', 'file2')),
},
]
json_output = formatter.format_violations(violations)
parsed_output = json.loads(json_output)
self.maxDiff = 1500
self.assertEqual(parsed_output, expected_output)
|
class TestJSONFormatter(FormatterAssertion, unittest.TestCase):
def test_format_violations(self):
pass
| 2 | 0 | 54 | 4 | 50 | 0 | 1 | 0 | 2 | 4 | 2 | 0 | 1 | 1 | 1 | 74 | 55 | 4 | 51 | 8 | 49 | 0 | 9 | 8 | 7 | 1 | 3 | 0 | 1 |
144,258 |
Kuniwak/vint
|
Kuniwak_vint/test/unit/vint/linting/formatter/test_formatter.py
|
test.unit.vint.linting.formatter.test_formatter.TestFormatter
|
class TestFormatter(FormatterAssertion, unittest.TestCase):
def test_format_violations_with_format_option(self):
config_dict = {
'cmdargs': {
'format': '{file_name}|{file_path}|{line_number}|{column_number}|{severity}|{description}|{policy_name}|{reference}'
}
}
formatter = Formatter(config_dict)
violations = [
{
'name': 'ProhibitSomethingEvil',
'level': Level.WARNING,
'description': 'this code is tooooo evil',
'reference': 'me',
'position': {
'line': 1,
'column': 2,
'path': Path('path', 'to', 'file1')
},
},
{
'name': 'ProhibitSomethingDangerous',
'level': Level.WARNING,
'description': 'this code is tooooo dangerous',
'reference': 'you',
'position': {
'line': 11,
'column': 21,
'path': Path('path', 'to', 'file2')
},
},
]
expected_output = """\
file1|path/to/file1|1|2|warning|this code is tooooo evil|ProhibitSomethingEvil|me
file2|path/to/file2|11|21|warning|this code is tooooo dangerous|ProhibitSomethingDangerous|you\
"""
self.assertFormattedViolations(formatter, violations, expected_output)
def test_format_violations(self):
config_dict = {}
formatter = Formatter(config_dict)
violations = [
{
'name': 'ProhibitSomethingEvil',
'level': Level.WARNING,
'description': 'this code is tooooo evil',
'reference': 'me',
'position': {
'line': 1,
'column': 2,
'path': Path('path', 'to', 'file1')
},
},
{
'name': 'ProhibitSomethingDangerous',
'level': Level.WARNING,
'description': 'this code is tooooo dangerous',
'reference': 'you',
'position': {
'line': 11,
'column': 21,
'path': Path('path', 'to', 'file2')
},
},
]
expected_output = """\
path/to/file1:1:2: this code is tooooo evil (see me)
path/to/file2:11:21: this code is tooooo dangerous (see you)\
"""
self.assertFormattedViolations(formatter, violations, expected_output)
|
class TestFormatter(FormatterAssertion, unittest.TestCase):
def test_format_violations_with_format_option(self):
pass
def test_format_violations_with_format_option(self):
pass
| 3 | 0 | 37 | 3 | 34 | 0 | 1 | 0 | 2 | 3 | 2 | 0 | 2 | 0 | 2 | 75 | 77 | 8 | 69 | 11 | 66 | 0 | 13 | 11 | 10 | 1 | 3 | 0 | 2 |
144,259 |
Kuniwak/vint
|
/Users/umroot/Documents/PhD_works/PhD-Core-Contents/Class-level-dataset-curation/data/git_repos_for_analysis/Kuniwak_vint/vint/ast/plugin/scope_plugin/scope_linker.py
|
vint.ast.plugin.scope_plugin.scope_linker.ScopeLinker.ScopeTreeBuilder
|
class ScopeTreeBuilder(object):
""" A class for event-driven builders to build a scope tree.
The class interest to scope-level events rather than AST-level events.
"""
def __init__(self):
self.link_registry = ScopeLinker.ScopeLinkRegistry()
global_scope = Scope(ScopeVisibility.GLOBAL_LIKE)
self._scope_stack = [global_scope]
self._add_symbol_table_variables(global_scope)
def enter_new_scope(self, scope_visibility): # type: (ScopeVisibility) -> None
current_scope = self.get_current_scope()
new_scope = Scope(scope_visibility)
self._add_symbol_table_variables(new_scope)
# Build a lexical scope chain
current_scope.child_scopes.append(new_scope)
self._scope_stack.append(new_scope)
def leave_current_scope(self): # type: () -> None
self._scope_stack.pop()
def get_global_scope(self): # type: () -> Scope
return self._scope_stack[0]
def get_script_local_scope(self): # type: () -> Scope
return self._scope_stack[1]
def get_current_scope(self): # type: () -> Scope
return self._scope_stack[-1]
# type: (Dict[str, Any], bool) -> None
def handle_new_parameter_found(self, id_node, is_lambda_argument):
current_scope = self.get_current_scope()
self._add_parameter(current_scope, id_node, is_lambda_argument)
def handle_new_range_parameters_found(self): # type: () -> None
# We can access "a:firstline" and "a:lastline" if the function is
# declared with an attribute "range". See :func-range
firstline_node = _create_virtual_identifier_node('firstline')
lastline_node = _create_virtual_identifier_node('lastline')
current_scope = self.get_current_scope()
self._add_parameter(current_scope, firstline_node,
is_explicit_lambda_argument=False)
self._add_parameter(current_scope, lastline_node,
is_explicit_lambda_argument=False)
def handle_new_dict_parameter_found(self): # type: () -> None
# We can access "l:self" is declared with an attribute "dict".
# See :help self
current_scope = self.get_current_scope()
self._add_self_variable(current_scope)
# type: () -> None
def handle_new_parameters_list_and_length_found(self):
# We can always access a:0 and a:000
# See :help internal-variables
param_length_node = _create_virtual_identifier_node('0')
param_list_node = _create_virtual_identifier_node('000')
current_scope = self.get_current_scope()
self._add_parameter(current_scope, param_length_node,
is_explicit_lambda_argument=False)
self._add_parameter(current_scope, param_list_node,
is_explicit_lambda_argument=False)
# type: (int) -> None
def handle_new_index_parameters_found(self, params_number):
current_scope = self.get_current_scope()
# Max parameters number is 20. See :help E740
for variadic_index in range(20 - params_number):
# Variadic parameters named 1-based index.
variadic_param = _create_virtual_identifier_node(
str(variadic_index + 1))
self._add_parameter(
current_scope, variadic_param, is_explicit_lambda_argument=False)
# type: (Dict[str, Any]) -> None
def handle_new_variable_found(self, id_node):
current_scope = self.get_current_scope()
scope_visibility_hint = detect_possible_scope_visibility(
id_node, current_scope)
if scope_visibility_hint.scope_visibility is ScopeVisibility.UNANALYZABLE \
or scope_visibility_hint.scope_visibility is ScopeVisibility.INVALID:
# We can not do anything
return
is_function = is_function_identifier(id_node)
if is_builtin_variable(id_node):
self._add_builtin_variable(id_node,
is_function=is_function,
explicity=scope_visibility_hint.explicity)
return
objective_scope = self._get_objective_scope(id_node)
self._add_variable(objective_scope,
id_node,
is_function,
scope_visibility_hint.explicity)
# type: (Dict[str, Any]) -> Scope
def _get_objective_scope(self, node):
current_scope = self.get_current_scope()
scope_visibility_hint = detect_possible_scope_visibility(
node, current_scope)
scope_visibility = scope_visibility_hint.scope_visibility
if scope_visibility is ScopeVisibility.GLOBAL_LIKE:
return self.get_global_scope()
if scope_visibility is ScopeVisibility.SCRIPT_LOCAL:
return self.get_script_local_scope()
# It is FUNCTION_LOCAL or LAMBDA scope
return current_scope
# type: (Dict[str, Any]) -> None
def handle_referencing_identifier_found(self, node):
current_scope = self.get_current_scope()
self.link_registry.link_identifier_to_context_scope(
node, current_scope)
def _add_parameter(self, objective_scope, id_node, is_explicit_lambda_argument):
# type: (Scope, Dict[str, Any], bool) -> None
if is_explicit_lambda_argument:
# Explicit lambda arguments can not have any explicit scope prefix.
variable_name = id_node['value']
explicity = ExplicityOfScopeVisibility.IMPLICIT_BUT_CONSTRAINED
else:
variable_name = 'a:' + id_node['value']
explicity = ExplicityOfScopeVisibility.EXPLICIT
self._register_variable(
objective_scope,
variable_name,
id_node,
explicity=explicity,
is_function=False,
is_builtin=False,
is_explicit_lambda_argument=is_explicit_lambda_argument
)
def _add_self_variable(self, objective_scope): # type: (Scope) -> None
variable_name = remove_optional_scope_prefix('l:self')
virtual_node = _create_virtual_identifier_node(variable_name)
self._register_variable(
objective_scope,
variable_name,
virtual_node,
explicity=ExplicityOfScopeVisibility.EXPLICIT,
is_function=False,
is_builtin=False,
is_explicit_lambda_argument=False
)
def _add_variable(self, objective_scope, id_node, is_function, explicity):
# type: (Scope, Dict[str, Any], bool, ExplicityOfScopeVisibility) -> None
variable_name = remove_optional_scope_prefix(id_node['value'])
self._register_variable(
objective_scope,
variable_name,
id_node,
explicity,
is_function,
is_builtin=False,
is_explicit_lambda_argument=False
)
def _add_builtin_variable(self, id_node, explicity, is_function):
# type: (Dict[str, Any], ExplicityOfScopeVisibility, bool) -> None
variable_name = remove_optional_scope_prefix(id_node['value'])
self._register_variable(
self.get_global_scope(),
variable_name,
id_node,
explicity,
is_function,
is_builtin=True,
is_explicit_lambda_argument=False
)
# type: (Scope) -> None
def _add_symbol_table_variables(self, objective_scope):
# We can always access any symbol tables such as: "g:", "s:", "l:".
# See :help internal-variables
scope_visibility = objective_scope.scope_visibility
symbol_table_variable_names = SymbolTableVariableNames[scope_visibility]
for symbol_table_variable_name in symbol_table_variable_names:
virtual_node = _create_virtual_identifier_node(
symbol_table_variable_name)
self._register_variable(
objective_scope,
symbol_table_variable_name,
virtual_node,
# NOTE: Symbol table always have scope prefix.
explicity=ExplicityOfScopeVisibility.EXPLICIT,
is_builtin=False,
is_function=False,
is_explicit_lambda_argument=False
)
def _register_variable(self, objective_scope, variable_name, node, explicity, is_function, is_builtin, is_explicit_lambda_argument):
# type: (Scope, str, Dict[str, Any], ExplicityOfScopeVisibility, bool, bool, bool) -> None
variable = VariableDeclaration(
explicity,
is_builtin,
is_explicit_lambda_argument
)
if is_function:
objective_variable_list = objective_scope.functions
else:
objective_variable_list = objective_scope.variables
same_name_variables = objective_variable_list.setdefault(
variable_name, [])
same_name_variables.append(variable)
self.link_registry.link_variable_to_declarative_identifier(
variable, node)
current_scope = self.get_current_scope()
self.link_registry.link_identifier_to_context_scope(
node, current_scope)
|
class ScopeTreeBuilder(object):
''' A class for event-driven builders to build a scope tree.
The class interest to scope-level events rather than AST-level events.
'''
def __init__(self):
pass
def enter_new_scope(self, scope_visibility):
pass
def leave_current_scope(self):
pass
def get_global_scope(self):
pass
def get_script_local_scope(self):
pass
def get_current_scope(self):
pass
def handle_new_parameter_found(self, id_node, is_lambda_argument):
pass
def handle_new_range_parameters_found(self):
pass
def handle_new_dict_parameter_found(self):
pass
def handle_new_parameters_list_and_length_found(self):
pass
def handle_new_index_parameters_found(self, params_number):
pass
def handle_new_variable_found(self, id_node):
pass
def _get_objective_scope(self, node):
pass
def handle_referencing_identifier_found(self, node):
pass
def _add_parameter(self, objective_scope, id_node, is_explicit_lambda_argument):
pass
def _add_self_variable(self, objective_scope):
pass
def _add_variable(self, objective_scope, id_node, is_function, explicity):
pass
def _add_builtin_variable(self, id_node, explicity, is_function):
pass
def _add_symbol_table_variables(self, objective_scope):
pass
def _register_variable(self, objective_scope, variable_name, node, explicity, is_function, is_builtin, is_explicit_lambda_argument):
pass
| 21 | 1 | 10 | 1 | 8 | 2 | 1 | 0.24 | 1 | 8 | 6 | 0 | 20 | 2 | 20 | 20 | 237 | 63 | 152 | 59 | 131 | 37 | 99 | 59 | 78 | 3 | 1 | 1 | 28 |
144,260 |
Kuniwak/vint
|
Kuniwak_vint/vint/ast/plugin/scope_plugin/identifier_classifier.py
|
vint.ast.plugin.scope_plugin.identifier_classifier.IdentifierClassifier
|
class IdentifierClassifier(object):
""" A class for identifier classifiers.
This class classify nodes by 5 flags:
- is dynamic: True if the identifier name can be determined by static analysis.
- is member: True if the identifier is a member of a subscription/dot/slice node.
- is declaring: True if the identifier is used to declare.
- is autoload: True if the identifier is declared with autoload.
- is function: True if the identifier is a function. Vim distinguish
between function identifiers and variable identifiers.
- is declarative parameter: True if the identifier is a declarative
parameter. For example, the identifier "param" in Func(param) is a
declarative parameter.
"""
class IdentifierCollector(object):
""" A class for identifier node collectors.
Only static and not member nodes will be collected and the nodes will
be grouped by 2 types; declaring or referencing.
"""
def __init__(self):
self._static_referencing_identifiers = None # type: List[Dict[str, Any]]
self._static_declaring_identifiers = None # type: List[Dict[str, Any]]
def collect_identifiers(self, ast): # type: (Dict[str, Any]) -> CollectedIdentifiers
self._static_referencing_identifiers = []
self._static_declaring_identifiers = []
# TODO: Make more performance efficiency.
traverse(ast, on_enter=self._enter_handler)
return CollectedIdentifiers(
self._static_declaring_identifiers,
self._static_referencing_identifiers
)
def _enter_handler(self, node):
if not _is_identifier_like_node(node):
return
# FIXME: Dynamic identifiers should be returned and it should be filtered by the caller.
if _is_dynamic_identifier(node) or _is_member_identifier(node) or _is_variadic_symbol(node):
return
if _is_declarative_identifier(node):
self._static_declaring_identifiers.append(node)
else:
self._static_referencing_identifiers.append(node)
def attach_identifier_attributes(self, ast): # type: (Dict[str, Any]) -> Dict[str, Any]
""" Attach 5 flags to the AST.
- is dynamic: True if the identifier name can be determined by static analysis.
- is member: True if the identifier is a member of a subscription/dot/slice node.
- is declaring: True if the identifier is used to declare.
- is autoload: True if the identifier is declared with autoload.
- is function: True if the identifier is a function. Vim distinguish
between function identifiers and variable identifiers.
- is declarative parameter: True if the identifier is a declarative
parameter. For example, the identifier "param" in Func(param) is a
declarative parameter.
- is on string expression context: True if the variable is on the
string expression context. The string expression context is the
string content on the 2nd argument of the map or filter function.
- is lambda argument: True if the identifier is a lambda argument.
"""
redir_assignment_parser = RedirAssignmentParser()
ast_with_parsed_redir = redir_assignment_parser.process(ast)
map_and_filter_parser = CallNodeParser()
ast_with_parse_map_and_filter_and_redir = \
map_and_filter_parser.process(ast_with_parsed_redir)
traverse(
ast_with_parse_map_and_filter_and_redir,
on_enter=lambda node: self._enter_handler(
node,
is_on_lambda_str=None,
is_on_lambda_body=None,
)
)
return ast
def _enter_handler(self, node, is_on_lambda_body, is_on_lambda_str):
node_type = NodeType(node['type'])
if node_type in IdentifierTerminateNodeTypes:
# Attach identifier attributes to all IdentifierTerminateNodeTypes.
self._enter_identifier_terminate_node(
node,
is_on_lambda_str=is_on_lambda_str,
is_on_lambda_body=is_on_lambda_body,
)
if node_type in AccessorLikeNodeTypes:
self._pre_mark_accessor_children(
node,
is_on_lambda_str=is_on_lambda_str,
is_on_lambda_body=is_on_lambda_body,
)
if node_type in DeclarativeNodeTypes:
self._enter_declarative_node(
node,
is_on_lambda_str=is_on_lambda_str,
is_on_lambda_body=is_on_lambda_body,
)
if node_type is NodeType.CALL:
self._enter_call_node(
node,
is_on_lambda_str=is_on_lambda_str,
is_on_lambda_body=is_on_lambda_body
)
if node_type is NodeType.DELFUNCTION:
self._enter_delfunction_node(
node,
is_on_lambda_str=is_on_lambda_str,
is_on_lambda_body=is_on_lambda_body
)
if node_type is NodeType.STRING:
self._enter_string_node(
node,
is_on_lambda_str=is_on_lambda_str,
is_on_lambda_body=is_on_lambda_body
)
if node_type is NodeType.LAMBDA:
return self._enter_lambda_node(
node,
is_on_lambda_str=is_on_lambda_str,
is_on_lambda_body=is_on_lambda_body,
)
def _pre_mark_accessor_children(self, node, is_on_lambda_body, is_on_lambda_str):
node_type = NodeType(node['type'])
dict_node = node['left']
if NodeType(dict_node['type']) in AccessorLikeNodeTypes:
self._pre_mark_accessor_children(
dict_node,
is_on_lambda_str=is_on_lambda_str,
is_on_lambda_body=is_on_lambda_body,
)
if node_type is NodeType.SLICE:
for member_node in node['rlist']:
# In VimLParser spec, an empty array means null.
# list[1:] => {rlist: [node, []]}
if type(member_node) is list:
continue
if NodeType(member_node['type']) is NodeType.IDENTIFIER:
# Only the identifier should be flagged as a member that
# the variable is an accessor for a list or dictionary.
# For example, the variable that is "l:end" in list[0 : l:end]
# is not accessor for the symbol table of the variable "list",
# but it is a variable symbol table accessor.
continue
self._pre_mark_member_node(
member_node,
is_on_lambda_str=is_on_lambda_str,
is_on_lambda_body=is_on_lambda_body,
)
return
member_node = node['right']
if node_type is NodeType.SUBSCRIPT:
if NodeType(member_node['type']) is NodeType.IDENTIFIER:
# Only the identifier should be flagged as a member that
# the variable is an accessor for a list or dictionary.
# For example, the variable that is "l:key" in dict[l:key]
# is not accessor for the symbol table of the variable "dict",
# but it is a variable symbol table accessor.
return
self._pre_mark_member_node(
member_node,
is_on_lambda_str=is_on_lambda_str,
is_on_lambda_body=is_on_lambda_body,
)
def _pre_mark_member_node(self, member_node, is_on_lambda_body, is_on_lambda_str):
member_node_type = NodeType(member_node['type'])
if member_node_type in IdentifierTerminateNodeTypes or \
member_node_type in AnalyzableSubScriptChildNodeTypes:
_set_identifier_attribute(
member_node,
is_member=True,
is_on_lambda_str=is_on_lambda_str,
is_on_lambda_body=is_on_lambda_body,
)
def _enter_identifier_like_node(self, node, is_on_lambda_body, is_on_lambda_str, is_declarative=None,
is_function=None, is_declarative_parameter=None):
node_type = NodeType(node['type'])
if node_type in AccessorLikeNodeTypes:
id_like_node = node
self._enter_accessor_node(
id_like_node,
is_declarative=is_declarative,
is_function=is_function,
is_declarative_parameter=is_declarative_parameter,
is_on_lambda_str=is_on_lambda_str,
is_on_lambda_body=is_on_lambda_body,
)
return
if node_type in IdentifierTerminateNodeTypes:
id_like_node = node
self._enter_identifier_terminate_node(
id_like_node,
is_declarative=is_declarative,
is_function=is_function,
is_declarative_parameter=is_declarative_parameter,
is_on_lambda_body=is_on_lambda_body,
is_on_lambda_str=is_on_lambda_str,
)
return
def _enter_function_node(self, func_node, is_on_lambda_body, is_on_lambda_str):
# Function node has declarative identifiers as the function name and
# the parameter names.
# Function name is in the left.
func_name_node = func_node['left']
self._enter_identifier_like_node(
func_name_node,
is_declarative=True,
is_function=True,
is_on_lambda_str=is_on_lambda_str,
is_on_lambda_body=is_on_lambda_body,
)
# Function parameter names are in the r_list.
func_param_nodes = func_node['rlist']
for func_param_node in func_param_nodes:
self._enter_identifier_like_node(
func_param_node,
is_declarative_parameter=True,
is_declarative=True,
is_on_lambda_body=is_on_lambda_body,
is_on_lambda_str=is_on_lambda_str,
)
def _enter_delfunction_node(self, delfunc_node, is_on_lambda_body, is_on_lambda_str):
func_name_node = delfunc_node['left']
self._enter_identifier_like_node(
func_name_node,
is_function=True,
is_on_lambda_body=is_on_lambda_body,
is_on_lambda_str=is_on_lambda_str
)
def _enter_curlyname_node(self, curlyname_node, is_on_lambda_body, is_on_lambda_str,
is_declarative=None, is_function=None, is_declarative_parameter=None):
# Curlyname node can have a dynamic name. For example:
# let s:var = 'VAR'
# let my_{s:var} = 0
_set_identifier_attribute(
curlyname_node,
is_dynamic=True,
is_declarative=is_declarative,
is_function=is_function,
is_declarative_parameter=is_declarative_parameter,
is_on_lambda_str=is_on_lambda_str,
is_on_lambda_body=is_on_lambda_body,
)
def _enter_identifier_terminate_node(self, id_term_node, is_on_lambda_body, is_on_lambda_str, is_declarative=None,
is_function=None, is_declarative_parameter=None, is_lambda_argument=None):
node_type = NodeType(id_term_node['type'])
if node_type is NodeType.CURLYNAME:
self._enter_curlyname_node(
id_term_node,
is_on_lambda_body=is_on_lambda_body,
is_on_lambda_str=is_on_lambda_str,
is_declarative=is_declarative,
is_function=is_function,
is_declarative_parameter=is_declarative_parameter,
)
return
is_autoload = '#' in id_term_node['value']
is_variadic = id_term_node['value'] == '...'
_set_identifier_attribute(
id_term_node,
is_lambda_argument=is_lambda_argument,
is_on_lambda_body=is_on_lambda_body,
is_on_lambda_str=is_on_lambda_str,
is_declarative=is_declarative,
is_autoload=is_autoload,
is_function=is_function,
is_declarative_parameter=is_declarative_parameter,
is_variadic=is_variadic,
)
def _enter_accessor_node(self, accessor_node, is_on_lambda_body, is_on_lambda_str, is_declarative=None,
is_function=None, is_declarative_parameter=None):
accessor_node_type = NodeType(accessor_node['type'])
if accessor_node_type is NodeType.DOT:
_set_identifier_attribute(
accessor_node['right'],
is_declarative=is_declarative,
is_dynamic=False,
is_function=is_function,
is_declarative_parameter=is_declarative_parameter,
is_on_lambda_str=is_on_lambda_str,
is_on_lambda_body=is_on_lambda_body,
)
return
if accessor_node_type is NodeType.SUBSCRIPT:
subscript_right_type = NodeType(accessor_node['right']['type'])
# We can do static analysis NodeType.SUBSCRIPT such as:
# let object['name'] = 0
#
# but we cannot do it in other cases such as:
# let object[var] = 0
is_dynamic = subscript_right_type not in AnalyzableSubScriptChildNodeTypes
if not is_dynamic:
_set_identifier_attribute(
accessor_node['right'],
is_declarative=is_declarative,
is_dynamic=False,
is_function=is_function,
is_declarative_parameter=is_declarative_parameter,
is_on_lambda_str=is_on_lambda_str,
is_on_lambda_body=is_on_lambda_body,
)
return
if accessor_node_type is NodeType.SLICE:
for elem_node in accessor_node['rlist']:
if type(elem_node) is list:
# In VimLParser spec, an empty array means null.
# list[1:] => {rlist: [node, []]}
continue
elem_node_type = NodeType(elem_node['type'])
# We can do static analysis NodeType.SLICE such as:
# let object[0:1] = 0
#
# but we cannot do it in other cases such as:
# let object[0:var] = 0
is_dynamic = elem_node_type not in AnalyzableSubScriptChildNodeTypes
# In the following case, 0 is a declarative but var is not declarative.
# It is more like a reference.
# let object[0:var] = 0
is_declarative = elem_node_type in AnalyzableSubScriptChildNodeTypes
_set_identifier_attribute(
elem_node,
is_declarative=is_declarative,
is_dynamic=is_dynamic,
is_function=is_function,
is_declarative_parameter=is_declarative_parameter,
is_on_lambda_str=is_on_lambda_str,
is_on_lambda_body=is_on_lambda_body,
)
return
raise Exception()
def _enter_let_node(self, let_node, is_on_lambda_body, is_on_lambda_str):
# Only "=" operator can be used as declaration.
if let_node['op'] != '=':
return
self._enter_assignment_node(
let_node,
is_on_lambda_str=is_on_lambda_str,
is_on_lambda_body=is_on_lambda_body,
)
def _enter_for_node(self, for_node, is_on_lambda_body, is_on_lambda_str):
self._enter_assignment_node(
for_node,
is_on_lambda_str=is_on_lambda_str,
is_on_lambda_body=is_on_lambda_body,
)
def _enter_assignment_node(self, node, is_on_lambda_body, is_on_lambda_str):
# In VimLParser spec, an empty array means null.
#
# | Normal assignment | Destructuring assignment |
# |:--------------------:|:---------------------------:|
# | node['left'] == Node | node['left'] == [] |
# | node['list'] == [] | node['list'] == [Node, ...] |
left_node = node['left']
is_destructuring_assignment = type(left_node) is list
if is_destructuring_assignment:
for elem_node in node['list']:
self._enter_identifier_like_node(
elem_node,
is_declarative=True,
is_on_lambda_str=is_on_lambda_str,
is_on_lambda_body=is_on_lambda_body,
)
else:
self._enter_identifier_like_node(
left_node,
is_declarative=True,
is_on_lambda_str=is_on_lambda_str,
is_on_lambda_body=is_on_lambda_body,
)
rest_node = node['rest']
has_rest = type(rest_node) is not list
if has_rest:
self._enter_identifier_like_node(
rest_node,
is_declarative=True,
is_on_lambda_str=is_on_lambda_str,
is_on_lambda_body=is_on_lambda_body,
)
def _enter_declarative_node(self, node, is_on_lambda_body, is_on_lambda_str):
node_type = NodeType(node['type'])
if node_type is NodeType.FUNCTION:
self._enter_function_node(
node,
is_on_lambda_str=is_on_lambda_str,
is_on_lambda_body=is_on_lambda_body,
)
elif node_type is NodeType.LET:
self._enter_let_node(
node,
is_on_lambda_str=is_on_lambda_str,
is_on_lambda_body=is_on_lambda_body,
)
elif node_type is NodeType.FOR:
self._enter_for_node(
node,
is_on_lambda_str=is_on_lambda_str,
is_on_lambda_body=is_on_lambda_body
)
elif node_type is NodeType.EXCMD:
self._enter_excmd_node(
node,
is_on_lambda_str=is_on_lambda_str,
is_on_lambda_body=is_on_lambda_body,
)
def _enter_call_node(self, call_node, is_on_lambda_body, is_on_lambda_str):
called_func_node = call_node['left']
self._enter_identifier_like_node(
called_func_node,
is_function=True,
is_on_lambda_str=is_on_lambda_str,
is_on_lambda_body=is_on_lambda_body,
)
def _enter_string_node(self, string_node, is_on_lambda_body, is_on_lambda_str):
# Classify the 2nd argument node of "map" and "filter" call when the node type is STRING.
lambda_string_expr_content_nodes = get_lambda_string_expr_content(string_node)
if lambda_string_expr_content_nodes is not None:
self._enter_lambda_str_expr_content_node(
lambda_string_expr_content_nodes,
is_on_lambda_body=is_on_lambda_body
)
# Classify the 1st argument node of "call" and "function" call when the node type is STRING.
func_ref_expr_content_nodes = get_function_reference_string_expr_content(string_node)
if func_ref_expr_content_nodes is not None:
self._enter_func_ref_str_expr_content_node(
func_ref_expr_content_nodes,
is_on_lambda_str=is_on_lambda_str,
is_on_lambda_body=is_on_lambda_body
)
return SKIP_CHILDREN
def _enter_lambda_str_expr_content_node(self, lambda_string_expr_content_nodes, is_on_lambda_body):
for string_expr_content_node in lambda_string_expr_content_nodes:
traverse(
string_expr_content_node,
on_enter=lambda node: self._enter_handler(
node,
is_on_lambda_str=True,
is_on_lambda_body=is_on_lambda_body,
)
)
def _enter_func_ref_str_expr_content_node(self, func_ref_id_nodes, is_on_lambda_str, is_on_lambda_body):
for func_ref_id_node in func_ref_id_nodes:
self._enter_identifier_terminate_node(
func_ref_id_node,
is_function=True,
is_on_lambda_str=is_on_lambda_str,
is_on_lambda_body=is_on_lambda_body
)
def _enter_excmd_node(self, cmd_node, is_on_lambda_body, is_on_lambda_str):
# Care an assignment by using command ":redir"
redir_content_node = get_redir_content(cmd_node)
if not redir_content_node:
return
self._enter_identifier_like_node(
redir_content_node,
is_on_lambda_str=is_on_lambda_str,
is_on_lambda_body=is_on_lambda_body,
is_declarative=True
)
def _enter_lambda_node(self, lambda_node, is_on_lambda_body, is_on_lambda_str):
# Function parameter names are in the r_list.
lambda_argument_nodes = lambda_node['rlist']
for lambda_argument_node in lambda_argument_nodes:
self._enter_identifier_terminate_node(
lambda_argument_node,
is_declarative=True,
is_lambda_argument=True,
is_on_lambda_str=is_on_lambda_str,
is_on_lambda_body=is_on_lambda_body,
)
# Traversing on lambda body context.
traverse(
lambda_node['left'],
on_enter=lambda node: self._enter_handler(
node,
is_on_lambda_body=True,
is_on_lambda_str=is_on_lambda_str,
)
)
# NOTE: Traversing to the lambda args and children was continued by the above traversing.
return SKIP_CHILDREN
|
class IdentifierClassifier(object):
''' A class for identifier classifiers.
This class classify nodes by 5 flags:
- is dynamic: True if the identifier name can be determined by static analysis.
- is member: True if the identifier is a member of a subscription/dot/slice node.
- is declaring: True if the identifier is used to declare.
- is autoload: True if the identifier is declared with autoload.
- is function: True if the identifier is a function. Vim distinguish
between function identifiers and variable identifiers.
- is declarative parameter: True if the identifier is a declarative
parameter. For example, the identifier "param" in Func(param) is a
declarative parameter.
'''
class IdentifierCollector(object):
''' A class for identifier node collectors.
Only static and not member nodes will be collected and the nodes will
be grouped by 2 types; declaring or referencing.
'''
def __init__(self):
pass
def collect_identifiers(self, ast):
pass
def _enter_handler(self, node):
pass
def attach_identifier_attributes(self, ast):
''' Attach 5 flags to the AST.
- is dynamic: True if the identifier name can be determined by static analysis.
- is member: True if the identifier is a member of a subscription/dot/slice node.
- is declaring: True if the identifier is used to declare.
- is autoload: True if the identifier is declared with autoload.
- is function: True if the identifier is a function. Vim distinguish
between function identifiers and variable identifiers.
- is declarative parameter: True if the identifier is a declarative
parameter. For example, the identifier "param" in Func(param) is a
declarative parameter.
- is on string expression context: True if the variable is on the
string expression context. The string expression context is the
string content on the 2nd argument of the map or filter function.
- is lambda argument: True if the identifier is a lambda argument.
'''
pass
def _enter_handler(self, node):
pass
def _pre_mark_accessor_children(self, node, is_on_lambda_body, is_on_lambda_str):
pass
def _pre_mark_member_node(self, member_node, is_on_lambda_body, is_on_lambda_str):
pass
def _enter_identifier_like_node(self, node, is_on_lambda_body, is_on_lambda_str, is_declarative=None,
is_function=None, is_declarative_parameter=None):
pass
def _enter_function_node(self, func_node, is_on_lambda_body, is_on_lambda_str):
pass
def _enter_delfunction_node(self, delfunc_node, is_on_lambda_body, is_on_lambda_str):
pass
def _enter_curlyname_node(self, curlyname_node, is_on_lambda_body, is_on_lambda_str,
is_declarative=None, is_function=None, is_declarative_parameter=None):
pass
def _enter_identifier_terminate_node(self, id_term_node, is_on_lambda_body, is_on_lambda_str, is_declarative=None,
is_function=None, is_declarative_parameter=None, is_lambda_argument=None):
pass
def _enter_accessor_node(self, accessor_node, is_on_lambda_body, is_on_lambda_str, is_declarative=None,
is_function=None, is_declarative_parameter=None):
pass
def _enter_let_node(self, let_node, is_on_lambda_body, is_on_lambda_str):
pass
def _enter_for_node(self, for_node, is_on_lambda_body, is_on_lambda_str):
pass
def _enter_assignment_node(self, node, is_on_lambda_body, is_on_lambda_str):
pass
def _enter_declarative_node(self, node, is_on_lambda_body, is_on_lambda_str):
pass
def _enter_call_node(self, call_node, is_on_lambda_body, is_on_lambda_str):
pass
def _enter_string_node(self, string_node, is_on_lambda_body, is_on_lambda_str):
pass
def _enter_lambda_str_expr_content_node(self, lambda_string_expr_content_nodes, is_on_lambda_body):
pass
def _enter_func_ref_str_expr_content_node(self, func_ref_id_nodes, is_on_lambda_str, is_on_lambda_body):
pass
def _enter_excmd_node(self, cmd_node, is_on_lambda_body, is_on_lambda_str):
pass
def _enter_lambda_node(self, lambda_node, is_on_lambda_body, is_on_lambda_str):
pass
| 25 | 3 | 22 | 2 | 17 | 3 | 3 | 0.22 | 1 | 6 | 3 | 0 | 20 | 0 | 20 | 20 | 572 | 99 | 392 | 68 | 363 | 86 | 165 | 64 | 140 | 8 | 1 | 3 | 65 |
144,261 |
Kuniwak/vint
|
/Users/umroot/Documents/PhD_works/PhD-Core-Contents/Class-level-dataset-curation/data/git_repos_for_analysis/Kuniwak_vint/test/unit/vint/linting/config/test_config_file_source.py
|
test.unit.vint.linting.config.test_config_file_source.TestConfigFileSource.ConcreteConfigFileSource
|
class ConcreteConfigFileSource(ConfigFileSource):
def get_file_path(self, env):
return FIXTURE_CONFIG_FILE
|
class ConcreteConfigFileSource(ConfigFileSource):
def get_file_path(self, env):
pass
| 2 | 0 | 2 | 0 | 2 | 0 | 1 | 0 | 1 | 0 | 0 | 0 | 1 | 0 | 1 | 7 | 3 | 0 | 3 | 2 | 1 | 0 | 3 | 2 | 1 | 1 | 3 | 0 | 1 |
144,262 |
Kuniwak/vint
|
Kuniwak_vint/vint/ast/plugin/scope_plugin/reference_reachability_tester.py
|
vint.ast.plugin.scope_plugin.reference_reachability_tester.ReferenceReachabilityTester
|
class ReferenceReachabilityTester(object):
""" A class for tester for reference reachability. """
class TwoWayScopeReferenceAttacher(object):
""" A class for AST processor to do attach to way reference between
a parent scope and the child scopes.
"""
@classmethod
def attach(cls, root_scope_tree):
# type: (Scope) -> Scope
root_scope_tree.parent = None
return cls._attach_recursively(root_scope_tree)
@classmethod
def _attach_recursively(cls, scope_tree):
# type: (Scope) -> Scope
for child_scope in scope_tree.child_scopes:
child_scope.parent = scope_tree
cls._attach_recursively(child_scope)
return scope_tree
def __init__(self):
self._scope_linker = ScopeLinker() # type: ScopeLinker
def process(self, ast):
self._scope_linker.process(ast)
id_collector = IdentifierClassifier.IdentifierCollector()
classified_id_group = id_collector.collect_identifiers(ast)
dec_id_nodes = classified_id_group.statically_declared_identifiers
ref_id_nodes = classified_id_group.statically_referencing_identifiers
# Attach a parent_scope accessor to the scope tree
ReferenceReachabilityTester.TwoWayScopeReferenceAttacher.attach(self._scope_linker.scope_tree)
# Reset REFERENCED_FLAG to False
for dec_id_node in dec_id_nodes:
dec_id_node[REFERENCED_FLAG] = False
for ref_id_node in ref_id_nodes:
is_reachable = self.check_reachability(ref_id_node)
ref_id_node[REACHABILITY_FLAG] = is_reachable
def get_objective_scope_visibility(self, decl_or_ref_id_node): # type: (Dict[str, Any]) -> ScopeVisibilityHint
""" Returns a objective scope visibility by a declarative identifier node or a reference identifier node. """
context_scope = self._scope_linker.link_registry.get_context_scope_by_identifier(decl_or_ref_id_node)
possible_visibility_hint = detect_possible_scope_visibility(decl_or_ref_id_node, context_scope)
possible_explicity = possible_visibility_hint.explicity
# Return the visibility soon if the node already have a determined visibility.
if possible_explicity is not ExplicityOfScopeVisibility.IMPLICIT_OR_LAMBDA:
determined_visibility_hint = possible_visibility_hint
return determined_visibility_hint
# The node have IMPLICIT_OR_LAMBDA can be only reference identifier nodes.
# SEE: detect_possible_scope_visibility
ref_id_node = decl_or_ref_id_node
# It is constrained implicit if it is a lambda argument.
if self._is_reference_to_lambda_argument(ref_id_node):
return ScopeVisibilityHint(
scope_visibility=possible_visibility_hint.scope_visibility,
explicity=ExplicityOfScopeVisibility.IMPLICIT_BUT_CONSTRAINED,
)
# Otherwise it is implicit.
return ScopeVisibilityHint(
scope_visibility=possible_visibility_hint.scope_visibility,
explicity=ExplicityOfScopeVisibility.IMPLICIT
)
def _reset_referenced_flag(self, scope_tree): # type: (Scope) -> None
for child_scope in scope_tree.child_scopes:
for functions in child_scope.functions.values():
for func in functions:
decl_id_node = self._scope_linker.link_registry.get_declarative_identifier_by_variable(func)
decl_id_node[REFERENCED_FLAG] = False
for variables in child_scope.variables.values():
for variable in variables:
decl_id_node = self._scope_linker.link_registry.get_declarative_identifier_by_variable(variable)
decl_id_node[REFERENCED_FLAG] = False
self._reset_referenced_flag(child_scope)
def get_referenced_variable_declarations(self, ref_id_node):
# type: (Dict[str, Any]) -> Union[List[VariableDeclaration], GlobalVariableDeclaration]
scope = self._scope_linker.link_registry.get_context_scope_by_identifier(ref_id_node)
var_name = remove_optional_scope_prefix(ref_id_node['value'])
is_func_id = is_function_identifier(ref_id_node)
while scope is not None:
if is_func_id:
functions_list = scope.functions
if var_name in functions_list:
# The function is found in the symbol table for functions.
funcs = functions_list[var_name]
for func in funcs:
declaring_id_node = self._scope_linker.link_registry \
.get_declarative_identifier_by_variable(func)
declaring_id_node[REFERENCED_FLAG] = True
return funcs
else:
# We can access the function via a variable function
# reference if the function not found from the symbol table
# for functions. So we should check the symbol table for
# variables to search the function reference.
pass
variables_list = scope.variables
if var_name in variables_list:
# The variable or function reference found in the symbol table
# for variables.
variables = variables_list[var_name]
for variable in variables:
declaring_id_node = self._scope_linker.link_registry \
.get_declarative_identifier_by_variable(variable)
declaring_id_node[REFERENCED_FLAG] = True
return variables
scope = scope.parent
# If it is builtin, it will be used by Vim.
if is_builtin_variable(ref_id_node):
return GLOBAL_VARIABLE_DECLARATION
return []
def check_reachability(self, ref_id_node): # type: (Dict[str, Any]) -> bool
# NOTE: We can only assume dynamic identifiers can reach.
if is_dynamic_identifier(ref_id_node):
return True
declarative_variables_or_global = self.get_referenced_variable_declarations(ref_id_node)
if isinstance(declarative_variables_or_global, GlobalVariableDeclaration):
# NOTE: It is a global like variable, so we can only assume it can reach.
return True
# NOTE: It is reachable if at least one declarative identifier can reach to found.
return len(declarative_variables_or_global) > 0
def _is_reference_to_lambda_argument(self, ref_id_node): # type: (Dict[str, Any]) -> bool
# NOTE: We can only assume dynamic identifiers can reach.
if is_dynamic_identifier(ref_id_node):
return True
declarative_variables_or_global = self.get_referenced_variable_declarations(ref_id_node)
if isinstance(declarative_variables_or_global, GlobalVariableDeclaration):
return False
declarative_variables = declarative_variables_or_global
for declarative_variable in declarative_variables:
if declarative_variable.is_explicit_lambda_argument:
return True
return False
|
class ReferenceReachabilityTester(object):
''' A class for tester for reference reachability. '''
class TwoWayScopeReferenceAttacher(object):
''' A class for AST processor to do attach to way reference between
a parent scope and the child scopes.
'''
@classmethod
def attach(cls, root_scope_tree):
pass
@classmethod
def _attach_recursively(cls, scope_tree):
pass
def __init__(self):
pass
def process(self, ast):
pass
def get_objective_scope_visibility(self, decl_or_ref_id_node):
''' Returns a objective scope visibility by a declarative identifier node or a reference identifier node. '''
pass
def _reset_referenced_flag(self, scope_tree):
pass
def get_referenced_variable_declarations(self, ref_id_node):
pass
def check_reachability(self, ref_id_node):
pass
def _is_reference_to_lambda_argument(self, ref_id_node):
pass
| 13 | 3 | 17 | 3 | 11 | 3 | 4 | 0.32 | 1 | 7 | 7 | 0 | 7 | 1 | 7 | 7 | 176 | 49 | 100 | 47 | 87 | 32 | 89 | 45 | 78 | 8 | 1 | 4 | 32 |
144,263 |
Kuniwak/vint
|
Kuniwak_vint/vint/_bundles/vimlparser.py
|
vint._bundles.vimlparser.VimLParserException
|
class VimLParserException(Exception):
pass
|
class VimLParserException(Exception):
pass
| 1 | 0 | 0 | 0 | 0 | 0 | 0 | 0 | 1 | 0 | 0 | 0 | 0 | 0 | 0 | 10 | 2 | 0 | 2 | 1 | 1 | 0 | 2 | 1 | 1 | 0 | 3 | 0 | 0 |
144,264 |
Kuniwak/vint
|
Kuniwak_vint/vint/_bundles/vimlparser.py
|
vint._bundles.vimlparser.VimLParser
|
class VimLParser:
def __init__(self, *a000):
if viml_len(a000) > 0:
self.neovim = a000[0]
else:
self.neovim = 0
self.find_command_cache = AttributeDict({})
def push_context(self, node):
viml_insert(self.context, node)
def pop_context(self):
viml_remove(self.context, 0)
def find_context(self, type):
i = 0
for node in self.context:
if node.type == type:
return i
i += 1
return -1
def add_node(self, node):
viml_add(self.context[0].body, node)
def check_missing_endfunction(self, ends, pos):
if self.context[0].type == NODE_FUNCTION:
raise VimLParserException(Err(viml_printf("E126: Missing :endfunction: %s", ends), pos))
def check_missing_endif(self, ends, pos):
if self.context[0].type == NODE_IF or self.context[0].type == NODE_ELSEIF or self.context[0].type == NODE_ELSE:
raise VimLParserException(Err(viml_printf("E171: Missing :endif: %s", ends), pos))
def check_missing_endtry(self, ends, pos):
if self.context[0].type == NODE_TRY or self.context[0].type == NODE_CATCH or self.context[0].type == NODE_FINALLY:
raise VimLParserException(Err(viml_printf("E600: Missing :endtry: %s", ends), pos))
def check_missing_endwhile(self, ends, pos):
if self.context[0].type == NODE_WHILE:
raise VimLParserException(Err(viml_printf("E170: Missing :endwhile: %s", ends), pos))
def check_missing_endfor(self, ends, pos):
if self.context[0].type == NODE_FOR:
raise VimLParserException(Err(viml_printf("E170: Missing :endfor: %s", ends), pos))
def parse(self, reader):
self.reader = reader
self.context = []
toplevel = Node(NODE_TOPLEVEL)
toplevel.pos = self.reader.getpos()
toplevel.body = []
self.push_context(toplevel)
while self.reader.peek() != "<EOF>":
self.parse_one_cmd()
self.check_missing_endfunction("TOPLEVEL", self.reader.getpos())
self.check_missing_endif("TOPLEVEL", self.reader.getpos())
self.check_missing_endtry("TOPLEVEL", self.reader.getpos())
self.check_missing_endwhile("TOPLEVEL", self.reader.getpos())
self.check_missing_endfor("TOPLEVEL", self.reader.getpos())
self.pop_context()
return toplevel
def parse_one_cmd(self):
self.ea = ExArg()
if self.reader.peekn(2) == "#!":
self.parse_hashbang()
self.reader.get()
return
self.reader.skip_white_and_colon()
if self.reader.peekn(1) == "":
self.reader.get()
return
if self.reader.peekn(1) == "\"":
self.parse_comment()
self.reader.get()
return
self.ea.linepos = self.reader.getpos()
self.parse_command_modifiers()
self.parse_range()
self.parse_command()
self.parse_trail()
# FIXME:
def parse_command_modifiers(self):
modifiers = []
while TRUE:
pos = self.reader.tell()
d = ""
if isdigit(self.reader.peekn(1)):
d = self.reader.read_digit()
self.reader.skip_white()
k = self.reader.read_alpha()
c = self.reader.peekn(1)
self.reader.skip_white()
if viml_stridx("aboveleft", k) == 0 and viml_len(k) >= 3:
# abo\%[veleft]
viml_add(modifiers, AttributeDict({"name": "aboveleft"}))
elif viml_stridx("belowright", k) == 0 and viml_len(k) >= 3:
# bel\%[owright]
viml_add(modifiers, AttributeDict({"name": "belowright"}))
elif viml_stridx("browse", k) == 0 and viml_len(k) >= 3:
# bro\%[wse]
viml_add(modifiers, AttributeDict({"name": "browse"}))
elif viml_stridx("botright", k) == 0 and viml_len(k) >= 2:
# bo\%[tright]
viml_add(modifiers, AttributeDict({"name": "botright"}))
elif viml_stridx("confirm", k) == 0 and viml_len(k) >= 4:
# conf\%[irm]
viml_add(modifiers, AttributeDict({"name": "confirm"}))
elif viml_stridx("keepmarks", k) == 0 and viml_len(k) >= 3:
# kee\%[pmarks]
viml_add(modifiers, AttributeDict({"name": "keepmarks"}))
elif viml_stridx("keepalt", k) == 0 and viml_len(k) >= 5:
# keepa\%[lt]
viml_add(modifiers, AttributeDict({"name": "keepalt"}))
elif viml_stridx("keepjumps", k) == 0 and viml_len(k) >= 5:
# keepj\%[umps]
viml_add(modifiers, AttributeDict({"name": "keepjumps"}))
elif viml_stridx("keeppatterns", k) == 0 and viml_len(k) >= 5:
# keepp\%[atterns]
viml_add(modifiers, AttributeDict({"name": "keeppatterns"}))
elif viml_stridx("hide", k) == 0 and viml_len(k) >= 3:
# hid\%[e]
if self.ends_excmds(c):
break
viml_add(modifiers, AttributeDict({"name": "hide"}))
elif viml_stridx("lockmarks", k) == 0 and viml_len(k) >= 3:
# loc\%[kmarks]
viml_add(modifiers, AttributeDict({"name": "lockmarks"}))
elif viml_stridx("leftabove", k) == 0 and viml_len(k) >= 5:
# lefta\%[bove]
viml_add(modifiers, AttributeDict({"name": "leftabove"}))
elif viml_stridx("noautocmd", k) == 0 and viml_len(k) >= 3:
# noa\%[utocmd]
viml_add(modifiers, AttributeDict({"name": "noautocmd"}))
elif viml_stridx("noswapfile", k) == 0 and viml_len(k) >= 3:
# :nos\%[wapfile]
viml_add(modifiers, AttributeDict({"name": "noswapfile"}))
elif viml_stridx("rightbelow", k) == 0 and viml_len(k) >= 6:
# rightb\%[elow]
viml_add(modifiers, AttributeDict({"name": "rightbelow"}))
elif viml_stridx("sandbox", k) == 0 and viml_len(k) >= 3:
# san\%[dbox]
viml_add(modifiers, AttributeDict({"name": "sandbox"}))
elif viml_stridx("silent", k) == 0 and viml_len(k) >= 3:
# sil\%[ent]
if c == "!":
self.reader.get()
viml_add(modifiers, AttributeDict({"name": "silent", "bang": 1}))
else:
viml_add(modifiers, AttributeDict({"name": "silent", "bang": 0}))
elif k == "tab":
# tab
if d != "":
viml_add(modifiers, AttributeDict({"name": "tab", "count": viml_str2nr(d, 10)}))
else:
viml_add(modifiers, AttributeDict({"name": "tab"}))
elif viml_stridx("topleft", k) == 0 and viml_len(k) >= 2:
# to\%[pleft]
viml_add(modifiers, AttributeDict({"name": "topleft"}))
elif viml_stridx("unsilent", k) == 0 and viml_len(k) >= 3:
# uns\%[ilent]
viml_add(modifiers, AttributeDict({"name": "unsilent"}))
elif viml_stridx("vertical", k) == 0 and viml_len(k) >= 4:
# vert\%[ical]
viml_add(modifiers, AttributeDict({"name": "vertical"}))
elif viml_stridx("verbose", k) == 0 and viml_len(k) >= 4:
# verb\%[ose]
if d != "":
viml_add(modifiers, AttributeDict({"name": "verbose", "count": viml_str2nr(d, 10)}))
else:
viml_add(modifiers, AttributeDict({"name": "verbose", "count": 1}))
else:
self.reader.seek_set(pos)
break
self.ea.modifiers = modifiers
# FIXME:
def parse_range(self):
tokens = []
while TRUE:
while TRUE:
self.reader.skip_white()
c = self.reader.peekn(1)
if c == "":
break
if c == ".":
viml_add(tokens, self.reader.getn(1))
elif c == "$":
viml_add(tokens, self.reader.getn(1))
elif c == "'":
self.reader.getn(1)
m = self.reader.getn(1)
if m == "":
break
viml_add(tokens, "'" + m)
elif c == "/":
self.reader.getn(1)
pattern, _ = self.parse_pattern(c)
viml_add(tokens, pattern)
elif c == "?":
self.reader.getn(1)
pattern, _ = self.parse_pattern(c)
viml_add(tokens, pattern)
elif c == "\\":
m = self.reader.p(1)
if m == "&" or m == "?" or m == "/":
self.reader.seek_cur(2)
viml_add(tokens, "\\" + m)
else:
raise VimLParserException(Err("E10: \\\\ should be followed by /, ? or &", self.reader.getpos()))
elif isdigit(c):
viml_add(tokens, self.reader.read_digit())
while TRUE:
self.reader.skip_white()
if self.reader.peekn(1) == "":
break
n = self.reader.read_integer()
if n == "":
break
viml_add(tokens, n)
if self.reader.p(0) != "/" and self.reader.p(0) != "?":
break
if self.reader.peekn(1) == "%":
viml_add(tokens, self.reader.getn(1))
elif self.reader.peekn(1) == "*":
# && &cpoptions !~ '\*'
viml_add(tokens, self.reader.getn(1))
if self.reader.peekn(1) == ";":
viml_add(tokens, self.reader.getn(1))
continue
elif self.reader.peekn(1) == ",":
viml_add(tokens, self.reader.getn(1))
continue
break
self.ea.range = tokens
# FIXME:
def parse_pattern(self, delimiter):
pattern = ""
endc = ""
inbracket = 0
while TRUE:
c = self.reader.getn(1)
if c == "":
break
if c == delimiter and inbracket == 0:
endc = c
break
pattern += c
if c == "\\":
c = self.reader.peekn(1)
if c == "":
raise VimLParserException(Err("E682: Invalid search pattern or delimiter", self.reader.getpos()))
self.reader.getn(1)
pattern += c
elif c == "[":
inbracket += 1
elif c == "]":
inbracket -= 1
return [pattern, endc]
def parse_command(self):
self.reader.skip_white_and_colon()
self.ea.cmdpos = self.reader.getpos()
if self.reader.peekn(1) == "" or self.reader.peekn(1) == "\"":
if not viml_empty(self.ea.modifiers) or not viml_empty(self.ea.range):
self.parse_cmd_modifier_range()
return
self.ea.cmd = self.find_command()
if self.ea.cmd is NIL:
self.reader.setpos(self.ea.cmdpos)
raise VimLParserException(Err(viml_printf("E492: Not an editor command: %s", self.reader.peekline()), self.ea.cmdpos))
if self.reader.peekn(1) == "!" and self.ea.cmd.name != "substitute" and self.ea.cmd.name != "smagic" and self.ea.cmd.name != "snomagic":
self.reader.getn(1)
self.ea.forceit = TRUE
else:
self.ea.forceit = FALSE
if not viml_eqregh(self.ea.cmd.flags, "\\<BANG\\>") and self.ea.forceit and not viml_eqregh(self.ea.cmd.flags, "\\<USERCMD\\>"):
raise VimLParserException(Err("E477: No ! allowed", self.ea.cmdpos))
if self.ea.cmd.name != "!":
self.reader.skip_white()
self.ea.argpos = self.reader.getpos()
if viml_eqregh(self.ea.cmd.flags, "\\<ARGOPT\\>"):
self.parse_argopt()
if self.ea.cmd.name == "write" or self.ea.cmd.name == "update":
if self.reader.p(0) == ">":
if self.reader.p(1) != ">":
raise VimLParserException(Err("E494: Use w or w>>", self.ea.cmdpos))
self.reader.seek_cur(2)
self.reader.skip_white()
self.ea.append = 1
elif self.reader.peekn(1) == "!" and self.ea.cmd.name == "write":
self.reader.getn(1)
self.ea.usefilter = TRUE
if self.ea.cmd.name == "read":
if self.ea.forceit:
self.ea.usefilter = TRUE
self.ea.forceit = FALSE
elif self.reader.peekn(1) == "!":
self.reader.getn(1)
self.ea.usefilter = TRUE
if self.ea.cmd.name == "<" or self.ea.cmd.name == ">":
self.ea.amount = 1
while self.reader.peekn(1) == self.ea.cmd.name:
self.reader.getn(1)
self.ea.amount += 1
self.reader.skip_white()
if viml_eqregh(self.ea.cmd.flags, "\\<EDITCMD\\>") and not self.ea.usefilter:
self.parse_argcmd()
self._parse_command(self.ea.cmd.parser)
# TODO: self[a:parser]
def _parse_command(self, parser):
if parser == "parse_cmd_append":
self.parse_cmd_append()
elif parser == "parse_cmd_break":
self.parse_cmd_break()
elif parser == "parse_cmd_call":
self.parse_cmd_call()
elif parser == "parse_cmd_catch":
self.parse_cmd_catch()
elif parser == "parse_cmd_common":
self.parse_cmd_common()
elif parser == "parse_cmd_continue":
self.parse_cmd_continue()
elif parser == "parse_cmd_delfunction":
self.parse_cmd_delfunction()
elif parser == "parse_cmd_echo":
self.parse_cmd_echo()
elif parser == "parse_cmd_echoconsole":
self.parse_cmd_echoconsole()
elif parser == "parse_cmd_echoerr":
self.parse_cmd_echoerr()
elif parser == "parse_cmd_echohl":
self.parse_cmd_echohl()
elif parser == "parse_cmd_echomsg":
self.parse_cmd_echomsg()
elif parser == "parse_cmd_echon":
self.parse_cmd_echon()
elif parser == "parse_cmd_else":
self.parse_cmd_else()
elif parser == "parse_cmd_elseif":
self.parse_cmd_elseif()
elif parser == "parse_cmd_endfor":
self.parse_cmd_endfor()
elif parser == "parse_cmd_endfunction":
self.parse_cmd_endfunction()
elif parser == "parse_cmd_endif":
self.parse_cmd_endif()
elif parser == "parse_cmd_endtry":
self.parse_cmd_endtry()
elif parser == "parse_cmd_endwhile":
self.parse_cmd_endwhile()
elif parser == "parse_cmd_execute":
self.parse_cmd_execute()
elif parser == "parse_cmd_finally":
self.parse_cmd_finally()
elif parser == "parse_cmd_finish":
self.parse_cmd_finish()
elif parser == "parse_cmd_for":
self.parse_cmd_for()
elif parser == "parse_cmd_function":
self.parse_cmd_function()
elif parser == "parse_cmd_if":
self.parse_cmd_if()
elif parser == "parse_cmd_insert":
self.parse_cmd_insert()
elif parser == "parse_cmd_let":
self.parse_cmd_let()
elif parser == "parse_cmd_const":
self.parse_cmd_const()
elif parser == "parse_cmd_loadkeymap":
self.parse_cmd_loadkeymap()
elif parser == "parse_cmd_lockvar":
self.parse_cmd_lockvar()
elif parser == "parse_cmd_lua":
self.parse_cmd_lua()
elif parser == "parse_cmd_modifier_range":
self.parse_cmd_modifier_range()
elif parser == "parse_cmd_mzscheme":
self.parse_cmd_mzscheme()
elif parser == "parse_cmd_perl":
self.parse_cmd_perl()
elif parser == "parse_cmd_python":
self.parse_cmd_python()
elif parser == "parse_cmd_python3":
self.parse_cmd_python3()
elif parser == "parse_cmd_return":
self.parse_cmd_return()
elif parser == "parse_cmd_ruby":
self.parse_cmd_ruby()
elif parser == "parse_cmd_tcl":
self.parse_cmd_tcl()
elif parser == "parse_cmd_throw":
self.parse_cmd_throw()
elif parser == "parse_cmd_eval":
self.parse_cmd_eval()
elif parser == "parse_cmd_try":
self.parse_cmd_try()
elif parser == "parse_cmd_unlet":
self.parse_cmd_unlet()
elif parser == "parse_cmd_unlockvar":
self.parse_cmd_unlockvar()
elif parser == "parse_cmd_usercmd":
self.parse_cmd_usercmd()
elif parser == "parse_cmd_while":
self.parse_cmd_while()
elif parser == "parse_wincmd":
self.parse_wincmd()
elif parser == "parse_cmd_syntax":
self.parse_cmd_syntax()
else:
raise VimLParserException(viml_printf("unknown parser: %s", viml_string(parser)))
def find_command(self):
c = self.reader.peekn(1)
name = ""
if c == "k":
self.reader.getn(1)
name = "k"
elif c == "s" and viml_eqregh(self.reader.peekn(5), "\\v^s%(c[^sr][^i][^p]|g|i[^mlg]|I|r[^e])"):
self.reader.getn(1)
name = "substitute"
elif viml_eqregh(c, "[@*!=><&~#]"):
self.reader.getn(1)
name = c
elif self.reader.peekn(2) == "py":
name = self.reader.read_alnum()
else:
pos = self.reader.tell()
name = self.reader.read_alpha()
if name != "del" and viml_eqregh(name, "\\v^d%[elete][lp]$"):
self.reader.seek_set(pos)
name = self.reader.getn(viml_len(name) - 1)
if name == "":
return NIL
if viml_has_key(self.find_command_cache, name):
return self.find_command_cache[name]
cmd = NIL
for x in self.builtin_commands:
if viml_stridx(x.name, name) == 0 and viml_len(name) >= x.minlen:
del cmd
cmd = x
break
if self.neovim:
for x in self.neovim_additional_commands:
if viml_stridx(x.name, name) == 0 and viml_len(name) >= x.minlen:
del cmd
cmd = x
break
for x in self.neovim_removed_commands:
if viml_stridx(x.name, name) == 0 and viml_len(name) >= x.minlen:
del cmd
cmd = NIL
break
# FIXME: user defined command
if (cmd is NIL or cmd.name == "Print") and viml_eqregh(name, "^[A-Z]"):
name += self.reader.read_alnum()
del cmd
cmd = AttributeDict({"name": name, "flags": "USERCMD", "parser": "parse_cmd_usercmd"})
self.find_command_cache[name] = cmd
return cmd
# TODO:
def parse_hashbang(self):
self.reader.getn(-1)
# TODO:
# ++opt=val
def parse_argopt(self):
while self.reader.p(0) == "+" and self.reader.p(1) == "+":
s = self.reader.peekn(20)
if viml_eqregh(s, "^++bin\\>"):
self.reader.getn(5)
self.ea.force_bin = 1
elif viml_eqregh(s, "^++nobin\\>"):
self.reader.getn(7)
self.ea.force_bin = 2
elif viml_eqregh(s, "^++edit\\>"):
self.reader.getn(6)
self.ea.read_edit = 1
elif viml_eqregh(s, "^++ff=\\(dos\\|unix\\|mac\\)\\>"):
self.reader.getn(5)
self.ea.force_ff = self.reader.read_alpha()
elif viml_eqregh(s, "^++fileformat=\\(dos\\|unix\\|mac\\)\\>"):
self.reader.getn(13)
self.ea.force_ff = self.reader.read_alpha()
elif viml_eqregh(s, "^++enc=\\S"):
self.reader.getn(6)
self.ea.force_enc = self.reader.read_nonwhite()
elif viml_eqregh(s, "^++encoding=\\S"):
self.reader.getn(11)
self.ea.force_enc = self.reader.read_nonwhite()
elif viml_eqregh(s, "^++bad=\\(keep\\|drop\\|.\\)\\>"):
self.reader.getn(6)
if viml_eqregh(s, "^++bad=keep"):
self.ea.bad_char = self.reader.getn(4)
elif viml_eqregh(s, "^++bad=drop"):
self.ea.bad_char = self.reader.getn(4)
else:
self.ea.bad_char = self.reader.getn(1)
elif viml_eqregh(s, "^++"):
raise VimLParserException(Err("E474: Invalid Argument", self.reader.getpos()))
else:
break
self.reader.skip_white()
# TODO:
# +command
def parse_argcmd(self):
if self.reader.peekn(1) == "+":
self.reader.getn(1)
if self.reader.peekn(1) == " ":
self.ea.do_ecmd_cmd = "$"
else:
self.ea.do_ecmd_cmd = self.read_cmdarg()
def read_cmdarg(self):
r = ""
while TRUE:
c = self.reader.peekn(1)
if c == "" or iswhite(c):
break
self.reader.getn(1)
if c == "\\":
c = self.reader.getn(1)
r += c
return r
def parse_comment(self):
npos = self.reader.getpos()
c = self.reader.get()
if c != "\"":
raise VimLParserException(Err(viml_printf("unexpected character: %s", c), npos))
node = Node(NODE_COMMENT)
node.pos = npos
node.str = self.reader.getn(-1)
self.add_node(node)
def parse_trail(self):
self.reader.skip_white()
c = self.reader.peek()
if c == "<EOF>":
# pass
pass
elif c == "<EOL>":
self.reader.get()
elif c == "|":
self.reader.get()
elif c == "\"":
self.parse_comment()
self.reader.get()
else:
raise VimLParserException(Err(viml_printf("E488: Trailing characters: %s", c), self.reader.getpos()))
# modifier or range only command line
def parse_cmd_modifier_range(self):
node = Node(NODE_EXCMD)
node.pos = self.ea.cmdpos
node.ea = self.ea
node.str = self.reader.getstr(self.ea.linepos, self.reader.getpos())
self.add_node(node)
# TODO:
def parse_cmd_common(self):
end = self.reader.getpos()
if viml_eqregh(self.ea.cmd.flags, "\\<TRLBAR\\>") and not self.ea.usefilter:
end = self.separate_nextcmd()
elif self.ea.cmd.name == "!" or self.ea.cmd.name == "global" or self.ea.cmd.name == "vglobal" or self.ea.usefilter:
while TRUE:
end = self.reader.getpos()
if self.reader.getn(1) == "":
break
else:
while TRUE:
end = self.reader.getpos()
if self.reader.getn(1) == "":
break
node = Node(NODE_EXCMD)
node.pos = self.ea.cmdpos
node.ea = self.ea
node.str = self.reader.getstr(self.ea.linepos, end)
self.add_node(node)
def separate_nextcmd(self):
if self.ea.cmd.name == "vimgrep" or self.ea.cmd.name == "vimgrepadd" or self.ea.cmd.name == "lvimgrep" or self.ea.cmd.name == "lvimgrepadd":
self.skip_vimgrep_pat()
pc = ""
end = self.reader.getpos()
nospend = end
while TRUE:
end = self.reader.getpos()
if not iswhite(pc):
nospend = end
c = self.reader.peek()
if c == "<EOF>" or c == "<EOL>":
break
elif c == "\x16":
# <C-V>
self.reader.get()
end = self.reader.getpos()
nospend = self.reader.getpos()
c = self.reader.peek()
if c == "<EOF>" or c == "<EOL>":
break
self.reader.get()
elif self.reader.peekn(2) == "`=" and viml_eqregh(self.ea.cmd.flags, "\\<\\(XFILE\\|FILES\\|FILE1\\)\\>"):
self.reader.getn(2)
self.parse_expr()
c = self.reader.peekn(1)
if c != "`":
raise VimLParserException(Err(viml_printf("unexpected character: %s", c), self.reader.getpos()))
self.reader.getn(1)
elif c == "|" or c == "\n" or c == "\"" and not viml_eqregh(self.ea.cmd.flags, "\\<NOTRLCOM\\>") and (self.ea.cmd.name != "@" and self.ea.cmd.name != "*" or self.reader.getpos() != self.ea.argpos) and (self.ea.cmd.name != "redir" or self.reader.getpos().i != self.ea.argpos.i + 1 or pc != "@"):
has_cpo_bar = FALSE
# &cpoptions =~ 'b'
if (not has_cpo_bar or not viml_eqregh(self.ea.cmd.flags, "\\<USECTRLV\\>")) and pc == "\\":
self.reader.get()
else:
break
else:
self.reader.get()
pc = c
if not viml_eqregh(self.ea.cmd.flags, "\\<NOTRLCOM\\>"):
end = nospend
return end
# FIXME
def skip_vimgrep_pat(self):
if self.reader.peekn(1) == "":
# pass
pass
elif isidc(self.reader.peekn(1)):
# :vimgrep pattern fname
self.reader.read_nonwhite()
else:
# :vimgrep /pattern/[g][j] fname
c = self.reader.getn(1)
_, endc = self.parse_pattern(c)
if c != endc:
return
while self.reader.p(0) == "g" or self.reader.p(0) == "j":
self.reader.getn(1)
def parse_cmd_append(self):
self.reader.setpos(self.ea.linepos)
cmdline = self.reader.readline()
lines = [cmdline]
m = "."
while TRUE:
if self.reader.peek() == "<EOF>":
break
line = self.reader.getn(-1)
viml_add(lines, line)
if line == m:
break
self.reader.get()
node = Node(NODE_EXCMD)
node.pos = self.ea.cmdpos
node.ea = self.ea
node.str = viml_join(lines, "\n")
self.add_node(node)
def parse_cmd_insert(self):
self.parse_cmd_append()
def parse_cmd_loadkeymap(self):
self.reader.setpos(self.ea.linepos)
cmdline = self.reader.readline()
lines = [cmdline]
while TRUE:
if self.reader.peek() == "<EOF>":
break
line = self.reader.readline()
viml_add(lines, line)
node = Node(NODE_EXCMD)
node.pos = self.ea.cmdpos
node.ea = self.ea
node.str = viml_join(lines, "\n")
self.add_node(node)
def parse_cmd_lua(self):
lines = []
self.reader.skip_white()
if self.reader.peekn(2) == "<<":
self.reader.getn(2)
self.reader.skip_white()
m = self.reader.readline()
if m == "":
m = "."
self.reader.setpos(self.ea.linepos)
cmdline = self.reader.getn(-1)
lines = [cmdline]
self.reader.get()
while TRUE:
if self.reader.peek() == "<EOF>":
break
line = self.reader.getn(-1)
viml_add(lines, line)
if line == m:
break
self.reader.get()
else:
self.reader.setpos(self.ea.linepos)
cmdline = self.reader.getn(-1)
lines = [cmdline]
node = Node(NODE_EXCMD)
node.pos = self.ea.cmdpos
node.ea = self.ea
node.str = viml_join(lines, "\n")
self.add_node(node)
def parse_cmd_mzscheme(self):
self.parse_cmd_lua()
def parse_cmd_perl(self):
self.parse_cmd_lua()
def parse_cmd_python(self):
self.parse_cmd_lua()
def parse_cmd_python3(self):
self.parse_cmd_lua()
def parse_cmd_ruby(self):
self.parse_cmd_lua()
def parse_cmd_tcl(self):
self.parse_cmd_lua()
def parse_cmd_finish(self):
self.parse_cmd_common()
if self.context[0].type == NODE_TOPLEVEL:
self.reader.seek_end(0)
# FIXME
def parse_cmd_usercmd(self):
self.parse_cmd_common()
def parse_cmd_function(self):
pos = self.reader.tell()
self.reader.skip_white()
# :function
if self.ends_excmds(self.reader.peek()):
self.reader.seek_set(pos)
self.parse_cmd_common()
return
# :function /pattern
if self.reader.peekn(1) == "/":
self.reader.seek_set(pos)
self.parse_cmd_common()
return
left = self.parse_lvalue_func()
self.reader.skip_white()
if left.type == NODE_IDENTIFIER:
s = left.value
ss = viml_split(s, "\\zs")
if ss[0] != "<" and ss[0] != "_" and not isupper(ss[0]) and viml_stridx(s, ":") == -1 and viml_stridx(s, "#") == -1:
raise VimLParserException(Err(viml_printf("E128: Function name must start with a capital or contain a colon: %s", s), left.pos))
# :function {name}
if self.reader.peekn(1) != "(":
self.reader.seek_set(pos)
self.parse_cmd_common()
return
# :function[!] {name}([arguments]) [range] [abort] [dict] [closure]
node = Node(NODE_FUNCTION)
node.pos = self.ea.cmdpos
node.body = []
node.ea = self.ea
node.left = left
node.rlist = []
node.default_args = []
node.attr = AttributeDict({"range": 0, "abort": 0, "dict": 0, "closure": 0})
node.endfunction = NIL
self.reader.getn(1)
tokenizer = ExprTokenizer(self.reader)
if tokenizer.peek().type == TOKEN_PCLOSE:
tokenizer.get()
else:
named = AttributeDict({})
while TRUE:
varnode = Node(NODE_IDENTIFIER)
token = tokenizer.get()
if token.type == TOKEN_IDENTIFIER:
if not isargname(token.value) or token.value == "firstline" or token.value == "lastline":
raise VimLParserException(Err(viml_printf("E125: Illegal argument: %s", token.value), token.pos))
elif viml_has_key(named, token.value):
raise VimLParserException(Err(viml_printf("E853: Duplicate argument name: %s", token.value), token.pos))
named[token.value] = 1
varnode.pos = token.pos
varnode.value = token.value
viml_add(node.rlist, varnode)
if tokenizer.peek().type == TOKEN_EQ:
tokenizer.get()
viml_add(node.default_args, self.parse_expr())
elif viml_len(node.default_args) > 0:
raise VimLParserException(Err("E989: Non-default argument follows default argument", varnode.pos))
# XXX: Vim doesn't skip white space before comma. F(a ,b) => E475
if iswhite(self.reader.p(0)) and tokenizer.peek().type == TOKEN_COMMA:
raise VimLParserException(Err("E475: Invalid argument: White space is not allowed before comma", self.reader.getpos()))
token = tokenizer.get()
if token.type == TOKEN_COMMA:
# XXX: Vim allows last comma. F(a, b, ) => OK
if tokenizer.peek().type == TOKEN_PCLOSE:
tokenizer.get()
break
elif token.type == TOKEN_PCLOSE:
break
else:
raise VimLParserException(Err(viml_printf("unexpected token: %s", token.value), token.pos))
elif token.type == TOKEN_DOTDOTDOT:
varnode.pos = token.pos
varnode.value = token.value
viml_add(node.rlist, varnode)
token = tokenizer.get()
if token.type == TOKEN_PCLOSE:
break
else:
raise VimLParserException(Err(viml_printf("unexpected token: %s", token.value), token.pos))
else:
raise VimLParserException(Err(viml_printf("unexpected token: %s", token.value), token.pos))
while TRUE:
self.reader.skip_white()
epos = self.reader.getpos()
key = self.reader.read_alpha()
if key == "":
break
elif key == "range":
node.attr.range = TRUE
elif key == "abort":
node.attr.abort = TRUE
elif key == "dict":
node.attr.dict = TRUE
elif key == "closure":
node.attr.closure = TRUE
else:
raise VimLParserException(Err(viml_printf("unexpected token: %s", key), epos))
self.add_node(node)
self.push_context(node)
def parse_cmd_endfunction(self):
self.check_missing_endif("ENDFUNCTION", self.ea.cmdpos)
self.check_missing_endtry("ENDFUNCTION", self.ea.cmdpos)
self.check_missing_endwhile("ENDFUNCTION", self.ea.cmdpos)
self.check_missing_endfor("ENDFUNCTION", self.ea.cmdpos)
if self.context[0].type != NODE_FUNCTION:
raise VimLParserException(Err("E193: :endfunction not inside a function", self.ea.cmdpos))
self.reader.getn(-1)
node = Node(NODE_ENDFUNCTION)
node.pos = self.ea.cmdpos
node.ea = self.ea
self.context[0].endfunction = node
self.pop_context()
def parse_cmd_delfunction(self):
node = Node(NODE_DELFUNCTION)
node.pos = self.ea.cmdpos
node.ea = self.ea
node.left = self.parse_lvalue_func()
self.add_node(node)
def parse_cmd_return(self):
if self.find_context(NODE_FUNCTION) == -1:
raise VimLParserException(Err("E133: :return not inside a function", self.ea.cmdpos))
node = Node(NODE_RETURN)
node.pos = self.ea.cmdpos
node.ea = self.ea
node.left = NIL
self.reader.skip_white()
c = self.reader.peek()
if c == "\"" or not self.ends_excmds(c):
node.left = self.parse_expr()
self.add_node(node)
def parse_cmd_call(self):
node = Node(NODE_EXCALL)
node.pos = self.ea.cmdpos
node.ea = self.ea
self.reader.skip_white()
c = self.reader.peek()
if self.ends_excmds(c):
raise VimLParserException(Err("E471: Argument required", self.reader.getpos()))
node.left = self.parse_expr()
if node.left.type != NODE_CALL:
raise VimLParserException(Err("Not an function call", node.left.pos))
self.add_node(node)
def parse_heredoc(self):
node = Node(NODE_HEREDOC)
node.pos = self.ea.cmdpos
node.op = ""
node.rlist = []
node.body = []
while TRUE:
self.reader.skip_white()
pos = self.reader.getpos()
key = self.reader.read_word()
if key == "":
break
if not islower(key[0]):
node.op = key
break
else:
keynode = Node(NODE_STRING)
keynode.pos = pos
keynode.value = key
viml_add(node.rlist, keynode)
if node.op == "":
raise VimLParserException(Err("E172: Missing marker", self.reader.getpos()))
self.parse_trail()
while TRUE:
if self.reader.peek() == "<EOF>":
break
pos = self.reader.getpos()
line = self.reader.getn(-1)
if line == node.op:
return node
linenode = Node(NODE_STRING)
linenode.pos = pos
linenode.value = line
viml_add(node.body, linenode)
self.reader.get()
raise VimLParserException(Err(viml_printf("E990: Missing end marker '%s'", node.op), self.reader.getpos()))
def parse_cmd_let(self):
pos = self.reader.tell()
self.reader.skip_white()
# :let
if self.ends_excmds(self.reader.peek()):
self.reader.seek_set(pos)
self.parse_cmd_common()
return
lhs = self.parse_letlhs()
self.reader.skip_white()
s1 = self.reader.peekn(1)
s2 = self.reader.peekn(2)
# TODO check scriptversion?
if s2 == "..":
s2 = self.reader.peekn(3)
elif s2 == "=<":
s2 = self.reader.peekn(3)
# :let {var-name} ..
if self.ends_excmds(s1) or s2 != "+=" and s2 != "-=" and s2 != ".=" and s2 != "..=" and s2 != "*=" and s2 != "/=" and s2 != "%=" and s2 != "=<<" and s1 != "=":
self.reader.seek_set(pos)
self.parse_cmd_common()
return
# :let left op right
node = Node(NODE_LET)
node.pos = self.ea.cmdpos
node.ea = self.ea
node.op = ""
node.left = lhs.left
node.list = lhs.list
node.rest = lhs.rest
node.right = NIL
if s2 == "+=" or s2 == "-=" or s2 == ".=" or s2 == "..=" or s2 == "*=" or s2 == "/=" or s2 == "%=":
self.reader.getn(viml_len(s2))
node.op = s2
elif s2 == "=<<":
self.reader.getn(viml_len(s2))
self.reader.skip_white()
node.op = s2
node.right = self.parse_heredoc()
self.add_node(node)
return
elif s1 == "=":
self.reader.getn(1)
node.op = s1
else:
raise VimLParserException("NOT REACHED")
node.right = self.parse_expr()
self.add_node(node)
def parse_cmd_const(self):
pos = self.reader.tell()
self.reader.skip_white()
# :const
if self.ends_excmds(self.reader.peek()):
self.reader.seek_set(pos)
self.parse_cmd_common()
return
lhs = self.parse_constlhs()
self.reader.skip_white()
s1 = self.reader.peekn(1)
# :const {var-name}
if self.ends_excmds(s1) or s1 != "=":
self.reader.seek_set(pos)
self.parse_cmd_common()
return
# :const left op right
node = Node(NODE_CONST)
node.pos = self.ea.cmdpos
node.ea = self.ea
self.reader.getn(1)
node.op = s1
node.left = lhs.left
node.list = lhs.list
node.rest = lhs.rest
node.right = self.parse_expr()
self.add_node(node)
def parse_cmd_unlet(self):
node = Node(NODE_UNLET)
node.pos = self.ea.cmdpos
node.ea = self.ea
node.list = self.parse_lvaluelist()
self.add_node(node)
def parse_cmd_lockvar(self):
node = Node(NODE_LOCKVAR)
node.pos = self.ea.cmdpos
node.ea = self.ea
node.depth = NIL
node.list = []
self.reader.skip_white()
if isdigit(self.reader.peekn(1)):
node.depth = viml_str2nr(self.reader.read_digit(), 10)
node.list = self.parse_lvaluelist()
self.add_node(node)
def parse_cmd_unlockvar(self):
node = Node(NODE_UNLOCKVAR)
node.pos = self.ea.cmdpos
node.ea = self.ea
node.depth = NIL
node.list = []
self.reader.skip_white()
if isdigit(self.reader.peekn(1)):
node.depth = viml_str2nr(self.reader.read_digit(), 10)
node.list = self.parse_lvaluelist()
self.add_node(node)
def parse_cmd_if(self):
node = Node(NODE_IF)
node.pos = self.ea.cmdpos
node.body = []
node.ea = self.ea
node.cond = self.parse_expr()
node.elseif = []
node.else_ = NIL
node.endif = NIL
self.add_node(node)
self.push_context(node)
def parse_cmd_elseif(self):
if self.context[0].type != NODE_IF and self.context[0].type != NODE_ELSEIF:
raise VimLParserException(Err("E582: :elseif without :if", self.ea.cmdpos))
if self.context[0].type != NODE_IF:
self.pop_context()
node = Node(NODE_ELSEIF)
node.pos = self.ea.cmdpos
node.body = []
node.ea = self.ea
node.cond = self.parse_expr()
viml_add(self.context[0].elseif, node)
self.push_context(node)
def parse_cmd_else(self):
if self.context[0].type != NODE_IF and self.context[0].type != NODE_ELSEIF:
raise VimLParserException(Err("E581: :else without :if", self.ea.cmdpos))
if self.context[0].type != NODE_IF:
self.pop_context()
node = Node(NODE_ELSE)
node.pos = self.ea.cmdpos
node.body = []
node.ea = self.ea
self.context[0].else_ = node
self.push_context(node)
def parse_cmd_endif(self):
if self.context[0].type != NODE_IF and self.context[0].type != NODE_ELSEIF and self.context[0].type != NODE_ELSE:
raise VimLParserException(Err("E580: :endif without :if", self.ea.cmdpos))
if self.context[0].type != NODE_IF:
self.pop_context()
node = Node(NODE_ENDIF)
node.pos = self.ea.cmdpos
node.ea = self.ea
self.context[0].endif = node
self.pop_context()
def parse_cmd_while(self):
node = Node(NODE_WHILE)
node.pos = self.ea.cmdpos
node.body = []
node.ea = self.ea
node.cond = self.parse_expr()
node.endwhile = NIL
self.add_node(node)
self.push_context(node)
def parse_cmd_endwhile(self):
if self.context[0].type != NODE_WHILE:
raise VimLParserException(Err("E588: :endwhile without :while", self.ea.cmdpos))
node = Node(NODE_ENDWHILE)
node.pos = self.ea.cmdpos
node.ea = self.ea
self.context[0].endwhile = node
self.pop_context()
def parse_cmd_for(self):
node = Node(NODE_FOR)
node.pos = self.ea.cmdpos
node.body = []
node.ea = self.ea
node.left = NIL
node.right = NIL
node.endfor = NIL
lhs = self.parse_letlhs()
node.left = lhs.left
node.list = lhs.list
node.rest = lhs.rest
self.reader.skip_white()
epos = self.reader.getpos()
if self.reader.read_alpha() != "in":
raise VimLParserException(Err("Missing \"in\" after :for", epos))
node.right = self.parse_expr()
self.add_node(node)
self.push_context(node)
def parse_cmd_endfor(self):
if self.context[0].type != NODE_FOR:
raise VimLParserException(Err("E588: :endfor without :for", self.ea.cmdpos))
node = Node(NODE_ENDFOR)
node.pos = self.ea.cmdpos
node.ea = self.ea
self.context[0].endfor = node
self.pop_context()
def parse_cmd_continue(self):
if self.find_context(NODE_WHILE) == -1 and self.find_context(NODE_FOR) == -1:
raise VimLParserException(Err("E586: :continue without :while or :for", self.ea.cmdpos))
node = Node(NODE_CONTINUE)
node.pos = self.ea.cmdpos
node.ea = self.ea
self.add_node(node)
def parse_cmd_break(self):
if self.find_context(NODE_WHILE) == -1 and self.find_context(NODE_FOR) == -1:
raise VimLParserException(Err("E587: :break without :while or :for", self.ea.cmdpos))
node = Node(NODE_BREAK)
node.pos = self.ea.cmdpos
node.ea = self.ea
self.add_node(node)
def parse_cmd_try(self):
node = Node(NODE_TRY)
node.pos = self.ea.cmdpos
node.body = []
node.ea = self.ea
node.catch = []
node.finally_ = NIL
node.endtry = NIL
self.add_node(node)
self.push_context(node)
def parse_cmd_catch(self):
if self.context[0].type == NODE_FINALLY:
raise VimLParserException(Err("E604: :catch after :finally", self.ea.cmdpos))
elif self.context[0].type != NODE_TRY and self.context[0].type != NODE_CATCH:
raise VimLParserException(Err("E603: :catch without :try", self.ea.cmdpos))
if self.context[0].type != NODE_TRY:
self.pop_context()
node = Node(NODE_CATCH)
node.pos = self.ea.cmdpos
node.body = []
node.ea = self.ea
node.pattern = NIL
self.reader.skip_white()
if not self.ends_excmds(self.reader.peek()):
node.pattern, _ = self.parse_pattern(self.reader.get())
viml_add(self.context[0].catch, node)
self.push_context(node)
def parse_cmd_finally(self):
if self.context[0].type != NODE_TRY and self.context[0].type != NODE_CATCH:
raise VimLParserException(Err("E606: :finally without :try", self.ea.cmdpos))
if self.context[0].type != NODE_TRY:
self.pop_context()
node = Node(NODE_FINALLY)
node.pos = self.ea.cmdpos
node.body = []
node.ea = self.ea
self.context[0].finally_ = node
self.push_context(node)
def parse_cmd_endtry(self):
if self.context[0].type != NODE_TRY and self.context[0].type != NODE_CATCH and self.context[0].type != NODE_FINALLY:
raise VimLParserException(Err("E602: :endtry without :try", self.ea.cmdpos))
if self.context[0].type != NODE_TRY:
self.pop_context()
node = Node(NODE_ENDTRY)
node.pos = self.ea.cmdpos
node.ea = self.ea
self.context[0].endtry = node
self.pop_context()
def parse_cmd_throw(self):
node = Node(NODE_THROW)
node.pos = self.ea.cmdpos
node.ea = self.ea
node.left = self.parse_expr()
self.add_node(node)
def parse_cmd_eval(self):
node = Node(NODE_EVAL)
node.pos = self.ea.cmdpos
node.ea = self.ea
node.left = self.parse_expr()
self.add_node(node)
def parse_cmd_echo(self):
node = Node(NODE_ECHO)
node.pos = self.ea.cmdpos
node.ea = self.ea
node.list = self.parse_exprlist()
self.add_node(node)
def parse_cmd_echon(self):
node = Node(NODE_ECHON)
node.pos = self.ea.cmdpos
node.ea = self.ea
node.list = self.parse_exprlist()
self.add_node(node)
def parse_cmd_echohl(self):
node = Node(NODE_ECHOHL)
node.pos = self.ea.cmdpos
node.ea = self.ea
node.str = ""
while not self.ends_excmds(self.reader.peek()):
node.str += self.reader.get()
self.add_node(node)
def parse_cmd_echomsg(self):
node = Node(NODE_ECHOMSG)
node.pos = self.ea.cmdpos
node.ea = self.ea
node.list = self.parse_exprlist()
self.add_node(node)
def parse_cmd_echoerr(self):
node = Node(NODE_ECHOERR)
node.pos = self.ea.cmdpos
node.ea = self.ea
node.list = self.parse_exprlist()
self.add_node(node)
def parse_cmd_echoconsole(self):
node = Node(NODE_ECHOCONSOLE)
node.pos = self.ea.cmdpos
node.ea = self.ea
node.list = self.parse_exprlist()
self.add_node(node)
def parse_cmd_execute(self):
node = Node(NODE_EXECUTE)
node.pos = self.ea.cmdpos
node.ea = self.ea
node.list = self.parse_exprlist()
self.add_node(node)
def parse_expr(self):
return ExprParser(self.reader).parse()
def parse_exprlist(self):
list = []
while TRUE:
self.reader.skip_white()
c = self.reader.peek()
if c != "\"" and self.ends_excmds(c):
break
node = self.parse_expr()
viml_add(list, node)
return list
def parse_lvalue_func(self):
p = LvalueParser(self.reader)
node = p.parse()
if node.type == NODE_IDENTIFIER or node.type == NODE_CURLYNAME or node.type == NODE_SUBSCRIPT or node.type == NODE_DOT or node.type == NODE_OPTION or node.type == NODE_ENV or node.type == NODE_REG:
return node
raise VimLParserException(Err("Invalid Expression", node.pos))
# FIXME:
def parse_lvalue(self):
p = LvalueParser(self.reader)
node = p.parse()
if node.type == NODE_IDENTIFIER:
if not isvarname(node.value):
raise VimLParserException(Err(viml_printf("E461: Illegal variable name: %s", node.value), node.pos))
if node.type == NODE_IDENTIFIER or node.type == NODE_CURLYNAME or node.type == NODE_SUBSCRIPT or node.type == NODE_SLICE or node.type == NODE_DOT or node.type == NODE_OPTION or node.type == NODE_ENV or node.type == NODE_REG:
return node
raise VimLParserException(Err("Invalid Expression", node.pos))
# TODO: merge with s:VimLParser.parse_lvalue()
def parse_constlvalue(self):
p = LvalueParser(self.reader)
node = p.parse()
if node.type == NODE_IDENTIFIER:
if not isvarname(node.value):
raise VimLParserException(Err(viml_printf("E461: Illegal variable name: %s", node.value), node.pos))
if node.type == NODE_IDENTIFIER or node.type == NODE_CURLYNAME:
return node
elif node.type == NODE_SUBSCRIPT or node.type == NODE_SLICE or node.type == NODE_DOT:
raise VimLParserException(Err("E996: Cannot lock a list or dict", node.pos))
elif node.type == NODE_OPTION:
raise VimLParserException(Err("E996: Cannot lock an option", node.pos))
elif node.type == NODE_ENV:
raise VimLParserException(Err("E996: Cannot lock an environment variable", node.pos))
elif node.type == NODE_REG:
raise VimLParserException(Err("E996: Cannot lock a register", node.pos))
raise VimLParserException(Err("Invalid Expression", node.pos))
def parse_lvaluelist(self):
list = []
node = self.parse_expr()
viml_add(list, node)
while TRUE:
self.reader.skip_white()
if self.ends_excmds(self.reader.peek()):
break
node = self.parse_lvalue()
viml_add(list, node)
return list
# FIXME:
def parse_letlhs(self):
lhs = AttributeDict({"left": NIL, "list": NIL, "rest": NIL})
tokenizer = ExprTokenizer(self.reader)
if tokenizer.peek().type == TOKEN_SQOPEN:
tokenizer.get()
lhs.list = []
while TRUE:
node = self.parse_lvalue()
viml_add(lhs.list, node)
token = tokenizer.get()
if token.type == TOKEN_SQCLOSE:
break
elif token.type == TOKEN_COMMA:
continue
elif token.type == TOKEN_SEMICOLON:
node = self.parse_lvalue()
lhs.rest = node
token = tokenizer.get()
if token.type == TOKEN_SQCLOSE:
break
else:
raise VimLParserException(Err(viml_printf("E475 Invalid argument: %s", token.value), token.pos))
else:
raise VimLParserException(Err(viml_printf("E475 Invalid argument: %s", token.value), token.pos))
else:
lhs.left = self.parse_lvalue()
return lhs
# TODO: merge with s:VimLParser.parse_letlhs() ?
def parse_constlhs(self):
lhs = AttributeDict({"left": NIL, "list": NIL, "rest": NIL})
tokenizer = ExprTokenizer(self.reader)
if tokenizer.peek().type == TOKEN_SQOPEN:
tokenizer.get()
lhs.list = []
while TRUE:
node = self.parse_lvalue()
viml_add(lhs.list, node)
token = tokenizer.get()
if token.type == TOKEN_SQCLOSE:
break
elif token.type == TOKEN_COMMA:
continue
elif token.type == TOKEN_SEMICOLON:
node = self.parse_lvalue()
lhs.rest = node
token = tokenizer.get()
if token.type == TOKEN_SQCLOSE:
break
else:
raise VimLParserException(Err(viml_printf("E475 Invalid argument: %s", token.value), token.pos))
else:
raise VimLParserException(Err(viml_printf("E475 Invalid argument: %s", token.value), token.pos))
else:
lhs.left = self.parse_constlvalue()
return lhs
def ends_excmds(self, c):
return c == "" or c == "|" or c == "\"" or c == "<EOF>" or c == "<EOL>"
# FIXME: validate argument
def parse_wincmd(self):
c = self.reader.getn(1)
if c == "":
raise VimLParserException(Err("E471: Argument required", self.reader.getpos()))
elif c == "g" or c == "\x07":
# <C-G>
c2 = self.reader.getn(1)
if c2 == "" or iswhite(c2):
raise VimLParserException(Err("E474: Invalid Argument", self.reader.getpos()))
end = self.reader.getpos()
self.reader.skip_white()
if not self.ends_excmds(self.reader.peek()):
raise VimLParserException(Err("E474: Invalid Argument", self.reader.getpos()))
node = Node(NODE_EXCMD)
node.pos = self.ea.cmdpos
node.ea = self.ea
node.str = self.reader.getstr(self.ea.linepos, end)
self.add_node(node)
# FIXME: validate argument
def parse_cmd_syntax(self):
end = self.reader.getpos()
while TRUE:
end = self.reader.getpos()
c = self.reader.peek()
if c == "/" or c == "'" or c == "\"":
self.reader.getn(1)
self.parse_pattern(c)
elif c == "=":
self.reader.getn(1)
self.parse_pattern(" ")
elif self.ends_excmds(c):
break
self.reader.getn(1)
node = Node(NODE_EXCMD)
node.pos = self.ea.cmdpos
node.ea = self.ea
node.str = self.reader.getstr(self.ea.linepos, end)
self.add_node(node)
neovim_additional_commands = [AttributeDict({"name": "rshada", "minlen": 3, "flags": "BANG|FILE1|TRLBAR|CMDWIN", "parser": "parse_cmd_common"}), AttributeDict({"name": "wshada", "minlen": 3, "flags": "BANG|FILE1|TRLBAR|CMDWIN", "parser": "parse_cmd_common"})]
neovim_removed_commands = [AttributeDict({"name": "Print", "minlen": 1, "flags": "RANGE|WHOLEFOLD|COUNT|EXFLAGS|TRLBAR|CMDWIN", "parser": "parse_cmd_common"}), AttributeDict({"name": "fixdel", "minlen": 3, "flags": "TRLBAR|CMDWIN", "parser": "parse_cmd_common"}), AttributeDict({"name": "helpfind", "minlen": 5, "flags": "EXTRA|NOTRLCOM", "parser": "parse_cmd_common"}), AttributeDict({"name": "open", "minlen": 1, "flags": "RANGE|BANG|EXTRA", "parser": "parse_cmd_common"}), AttributeDict({"name": "shell", "minlen": 2, "flags": "TRLBAR|CMDWIN", "parser": "parse_cmd_common"}), AttributeDict({"name": "tearoff", "minlen": 2, "flags": "NEEDARG|EXTRA|TRLBAR|NOTRLCOM|CMDWIN", "parser": "parse_cmd_common"}), AttributeDict({"name": "gvim", "minlen": 2, "flags": "BANG|FILES|EDITCMD|ARGOPT|TRLBAR|CMDWIN", "parser": "parse_cmd_common"})]
# To find new builtin_commands, run the below script.
# $ scripts/update_builtin_commands.sh /path/to/vim/src/ex_cmds.h
builtin_commands = [AttributeDict({"name": "append", "minlen": 1, "flags": "BANG|RANGE|ZEROR|TRLBAR|CMDWIN|LOCK_OK|MODIFY", "parser": "parse_cmd_append"}), AttributeDict({"name": "abbreviate", "minlen": 2, "flags": "EXTRA|TRLBAR|NOTRLCOM|CTRLV|CMDWIN|LOCK_OK", "parser": "parse_cmd_common"}), AttributeDict({"name": "abclear", "minlen": 3, "flags": "EXTRA|TRLBAR|CMDWIN|LOCK_OK", "parser": "parse_cmd_common"}), AttributeDict({"name": "aboveleft", "minlen": 3, "flags": "NEEDARG|EXTRA|NOTRLCOM", "parser": "parse_cmd_common"}), AttributeDict({"name": "abstract", "minlen": 3, "flags": "EXTRA|TRLBAR|CMDWIN|LOCK_OK", "parser": "parse_cmd_common"}), AttributeDict({"name": "all", "minlen": 2, "flags": "BANG|RANGE|COUNT|TRLBAR", "parser": "parse_cmd_common"}), AttributeDict({"name": "amenu", "minlen": 2, "flags": "RANGE|ZEROR|EXTRA|TRLBAR|NOTRLCOM|CTRLV|CMDWIN|LOCK_OK", "parser": "parse_cmd_common"}), AttributeDict({"name": "anoremenu", "minlen": 2, "flags": "RANGE|ZEROR|EXTRA|TRLBAR|NOTRLCOM|CTRLV|CMDWIN|LOCK_OK", "parser": "parse_cmd_common"}), AttributeDict({"name": "args", "minlen": 2, "flags": "BANG|FILES|CMDARG|ARGOPT|TRLBAR", "parser": "parse_cmd_common"}), AttributeDict({"name": "argadd", "minlen": 4, "flags": "BANG|RANGE|ZEROR|FILES|TRLBAR", "parser": "parse_cmd_common"}), AttributeDict({"name": "argdelete", "minlen": 4, "flags": "BANG|RANGE|FILES|TRLBAR", "parser": "parse_cmd_common"}), AttributeDict({"name": "argdo", "minlen": 5, "flags": "BANG|NEEDARG|EXTRA|NOTRLCOM|RANGE|DFLALL|EXPAND", "parser": "parse_cmd_common"}), AttributeDict({"name": "argdedupe", "minlen": 6, "flags": "TRLBAR", "parser": "parse_cmd_common"}), AttributeDict({"name": "argedit", "minlen": 4, "flags": "BANG|NEEDARG|RANGE|ZEROR|FILES|CMDARG|ARGOPT|TRLBAR", "parser": "parse_cmd_common"}), AttributeDict({"name": "argglobal", "minlen": 4, "flags": "BANG|FILES|CMDARG|ARGOPT|TRLBAR", "parser": "parse_cmd_common"}), AttributeDict({"name": "arglocal", "minlen": 4, "flags": "BANG|FILES|CMDARG|ARGOPT|TRLBAR", "parser": "parse_cmd_common"}), AttributeDict({"name": "argument", "minlen": 4, "flags": "BANG|RANGE|COUNT|EXTRA|CMDARG|ARGOPT|TRLBAR", "parser": "parse_cmd_common"}), AttributeDict({"name": "ascii", "minlen": 2, "flags": "TRLBAR|SBOXOK|CMDWIN|LOCK_OK", "parser": "parse_cmd_common"}), AttributeDict({"name": "autocmd", "minlen": 2, "flags": "BANG|EXTRA|NOTRLCOM|CTRLV|CMDWIN|LOCK_OK", "parser": "parse_cmd_common"}), AttributeDict({"name": "augroup", "minlen": 3, "flags": "BANG|WORD1|TRLBAR|CMDWIN|LOCK_OK", "parser": "parse_cmd_common"}), AttributeDict({"name": "aunmenu", "minlen": 3, "flags": "EXTRA|TRLBAR|NOTRLCOM|CTRLV|CMDWIN|LOCK_OK", "parser": "parse_cmd_common"}), AttributeDict({"name": "buffer", "minlen": 1, "flags": "BANG|RANGE|BUFNAME|BUFUNL|COUNT|EXTRA|CMDARG|TRLBAR", "parser": "parse_cmd_common"}), AttributeDict({"name": "bNext", "minlen": 2, "flags": "BANG|RANGE|COUNT|CMDARG|TRLBAR", "parser": "parse_cmd_common"}), AttributeDict({"name": "ball", "minlen": 2, "flags": "RANGE|COUNT|TRLBAR", "parser": "parse_cmd_common"}), AttributeDict({"name": "badd", "minlen": 3, "flags": "NEEDARG|FILE1|CMDARG|TRLBAR|CMDWIN|LOCK_OK", "parser": "parse_cmd_common"}), AttributeDict({"name": "balt", "minlen": 4, "flags": "NEEDARG|FILE1|CMDARG|TRLBAR|CMDWIN|LOCK_OK", "parser": "parse_cmd_common"}), AttributeDict({"name": "bdelete", "minlen": 2, "flags": "BANG|RANGE|BUFNAME|COUNT|EXTRA|TRLBAR", "parser": "parse_cmd_common"}), AttributeDict({"name": "behave", "minlen": 2, "flags": "BANG|NEEDARG|WORD1|TRLBAR|CMDWIN|LOCK_OK", "parser": "parse_cmd_common"}), AttributeDict({"name": "belowright", "minlen": 3, "flags": "NEEDARG|EXTRA|NOTRLCOM", "parser": "parse_cmd_common"}), AttributeDict({"name": "bfirst", "minlen": 2, "flags": "BANG|RANGE|CMDARG|TRLBAR", "parser": "parse_cmd_common"}), AttributeDict({"name": "blast", "minlen": 2, "flags": "BANG|RANGE|CMDARG|TRLBAR", "parser": "parse_cmd_common"}), AttributeDict({"name": "bmodified", "minlen": 2, "flags": "BANG|RANGE|COUNT|CMDARG|TRLBAR", "parser": "parse_cmd_common"}), AttributeDict({"name": "bnext", "minlen": 2, "flags": "BANG|RANGE|COUNT|CMDARG|TRLBAR", "parser": "parse_cmd_common"}), AttributeDict({"name": "botright", "minlen": 2, "flags": "NEEDARG|EXTRA|NOTRLCOM", "parser": "parse_cmd_common"}), AttributeDict({"name": "bprevious", "minlen": 2, "flags": "BANG|RANGE|COUNT|CMDARG|TRLBAR", "parser": "parse_cmd_common"}), AttributeDict({"name": "brewind", "minlen": 2, "flags": "BANG|RANGE|CMDARG|TRLBAR", "parser": "parse_cmd_common"}), AttributeDict({"name": "break", "minlen": 4, "flags": "TRLBAR|SBOXOK|CMDWIN|LOCK_OK", "parser": "parse_cmd_break"}), AttributeDict({"name": "breakadd", "minlen": 6, "flags": "EXTRA|TRLBAR|CMDWIN|LOCK_OK", "parser": "parse_cmd_common"}), AttributeDict({"name": "breakdel", "minlen": 6, "flags": "EXTRA|TRLBAR|CMDWIN|LOCK_OK", "parser": "parse_cmd_common"}), AttributeDict({"name": "breaklist", "minlen": 6, "flags": "EXTRA|TRLBAR|CMDWIN|LOCK_OK", "parser": "parse_cmd_common"}), AttributeDict({"name": "browse", "minlen": 3, "flags": "NEEDARG|EXTRA|NOTRLCOM|CMDWIN|LOCK_OK", "parser": "parse_cmd_common"}), AttributeDict({"name": "buffers", "minlen": 7, "flags": "BANG|EXTRA|TRLBAR|CMDWIN|LOCK_OK", "parser": "parse_cmd_common"}), AttributeDict({"name": "bufdo", "minlen": 4, "flags": "BANG|NEEDARG|EXTRA|NOTRLCOM|RANGE|DFLALL|EXPAND", "parser": "parse_cmd_common"}), AttributeDict({"name": "bunload", "minlen": 3, "flags": "BANG|RANGE|BUFNAME|COUNT|EXTRA|TRLBAR", "parser": "parse_cmd_common"}), AttributeDict({"name": "bwipeout", "minlen": 2, "flags": "BANG|RANGE|BUFNAME|BUFUNL|COUNT|EXTRA|TRLBAR", "parser": "parse_cmd_common"}), AttributeDict({"name": "change", "minlen": 1, "flags": "BANG|WHOLEFOLD|RANGE|COUNT|TRLBAR|CMDWIN|LOCK_OK|MODIFY", "parser": "parse_cmd_common"}), AttributeDict({"name": "cNext", "minlen": 2, "flags": "RANGE|COUNT|TRLBAR|BANG", "parser": "parse_cmd_common"}), AttributeDict({"name": "cNfile", "minlen": 3, "flags": "RANGE|COUNT|TRLBAR|BANG", "parser": "parse_cmd_common"}), AttributeDict({"name": "cabbrev", "minlen": 2, "flags": "EXTRA|TRLBAR|NOTRLCOM|CTRLV|CMDWIN|LOCK_OK", "parser": "parse_cmd_common"}), AttributeDict({"name": "cabclear", "minlen": 4, "flags": "EXTRA|TRLBAR|CMDWIN|LOCK_OK", "parser": "parse_cmd_common"}), AttributeDict({"name": "cabove", "minlen": 4, "flags": "RANGE|COUNT|TRLBAR", "parser": "parse_cmd_common"}), AttributeDict({"name": "caddbuffer", "minlen": 3, "flags": "RANGE|WORD1|TRLBAR", "parser": "parse_cmd_common"}), AttributeDict({"name": "caddexpr", "minlen": 5, "flags": "NEEDARG|WORD1|NOTRLCOM|EXPR_ARG", "parser": "parse_cmd_common"}), AttributeDict({"name": "caddfile", "minlen": 5, "flags": "TRLBAR|FILE1", "parser": "parse_cmd_common"}), AttributeDict({"name": "cafter", "minlen": 3, "flags": "RANGE|COUNT|TRLBAR", "parser": "parse_cmd_common"}), AttributeDict({"name": "call", "minlen": 3, "flags": "RANGE|NEEDARG|EXTRA|NOTRLCOM|EXPR_ARG|SBOXOK|CMDWIN|LOCK_OK", "parser": "parse_cmd_call"}), AttributeDict({"name": "catch", "minlen": 3, "flags": "EXTRA|SBOXOK|CMDWIN|LOCK_OK", "parser": "parse_cmd_catch"}), AttributeDict({"name": "cbuffer", "minlen": 2, "flags": "BANG|RANGE|WORD1|TRLBAR", "parser": "parse_cmd_common"}), AttributeDict({"name": "cbefore", "minlen": 3, "flags": "RANGE|COUNT|TRLBAR", "parser": "parse_cmd_common"}), AttributeDict({"name": "cbelow", "minlen": 4, "flags": "RANGE|COUNT|TRLBAR", "parser": "parse_cmd_common"}), AttributeDict({"name": "cbottom", "minlen": 3, "flags": "TRLBAR", "parser": "parse_cmd_common"}), AttributeDict({"name": "cc", "minlen": 2, "flags": "RANGE|COUNT|TRLBAR|BANG", "parser": "parse_cmd_common"}), AttributeDict({"name": "cclose", "minlen": 3, "flags": "TRLBAR", "parser": "parse_cmd_common"}), AttributeDict({"name": "cd", "minlen": 2, "flags": "BANG|FILE1|TRLBAR|CMDWIN|LOCK_OK", "parser": "parse_cmd_common"}), AttributeDict({"name": "cdo", 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"RANGE|ZEROR|EXTRA|TRLBAR|NOTRLCOM|CTRLV|CMDWIN|LOCK_OK", "parser": "parse_cmd_common"}), AttributeDict({"name": "tlnoremenu", "minlen": 3, "flags": "RANGE|ZEROR|EXTRA|TRLBAR|NOTRLCOM|CTRLV|CMDWIN|LOCK_OK", "parser": "parse_cmd_common"}), AttributeDict({"name": "tlunmenu", "minlen": 3, "flags": "RANGE|ZEROR|EXTRA|TRLBAR|NOTRLCOM|CTRLV|CMDWIN|LOCK_OK", "parser": "parse_cmd_common"}), AttributeDict({"name": "tmenu", "minlen": 2, "flags": "RANGE|ZEROR|EXTRA|TRLBAR|NOTRLCOM|CTRLV|CMDWIN|LOCK_OK", "parser": "parse_cmd_common"}), AttributeDict({"name": "tmap", "minlen": 3, "flags": "EXTRA|TRLBAR|NOTRLCOM|CTRLV|CMDWIN|LOCK_OK", "parser": "parse_cmd_common"}), AttributeDict({"name": "tmapclear", "minlen": 5, "flags": "EXTRA|TRLBAR|CMDWIN|LOCK_OK", "parser": "parse_cmd_common"}), AttributeDict({"name": "tnext", "minlen": 2, "flags": "RANGE|BANG|TRLBAR|ZEROR", "parser": "parse_cmd_common"}), AttributeDict({"name": "tnoremap", "minlen": 3, "flags": "EXTRA|TRLBAR|NOTRLCOM|CTRLV|CMDWIN|LOCK_OK", "parser": "parse_cmd_common"}), AttributeDict({"name": "topleft", "minlen": 2, "flags": "NEEDARG|EXTRA|NOTRLCOM", "parser": "parse_cmd_common"}), AttributeDict({"name": "tprevious", "minlen": 2, "flags": "RANGE|BANG|TRLBAR|ZEROR", "parser": "parse_cmd_common"}), AttributeDict({"name": "trewind", "minlen": 2, "flags": "RANGE|BANG|TRLBAR|ZEROR", "parser": "parse_cmd_common"}), AttributeDict({"name": "try", "minlen": 3, "flags": "TRLBAR|SBOXOK|CMDWIN|LOCK_OK", "parser": "parse_cmd_try"}), AttributeDict({"name": "tselect", "minlen": 2, "flags": "BANG|TRLBAR|WORD1", "parser": "parse_cmd_common"}), AttributeDict({"name": "tunmenu", "minlen": 2, "flags": "EXTRA|TRLBAR|NOTRLCOM|CTRLV|CMDWIN|LOCK_OK", "parser": "parse_cmd_common"}), AttributeDict({"name": "tunmap", "minlen": 5, "flags": "EXTRA|TRLBAR|NOTRLCOM|CTRLV|CMDWIN|LOCK_OK", "parser": "parse_cmd_common"}), AttributeDict({"name": "type", "minlen": 2, "flags": "EXTRA|TRLBAR|CMDWIN|LOCK_OK", "parser": "parse_cmd_common"}), AttributeDict({"name": "undo", "minlen": 1, "flags": "RANGE|COUNT|ZEROR|TRLBAR|CMDWIN|LOCK_OK", "parser": "parse_cmd_common"}), AttributeDict({"name": "undojoin", "minlen": 5, "flags": "TRLBAR|CMDWIN|LOCK_OK", "parser": "parse_cmd_common"}), AttributeDict({"name": "undolist", "minlen": 5, "flags": "TRLBAR|CMDWIN|LOCK_OK", "parser": "parse_cmd_common"}), AttributeDict({"name": "unabbreviate", "minlen": 3, "flags": "EXTRA|TRLBAR|NOTRLCOM|CTRLV|CMDWIN|LOCK_OK", "parser": "parse_cmd_common"}), AttributeDict({"name": "unhide", "minlen": 3, "flags": "RANGE|COUNT|TRLBAR", "parser": "parse_cmd_common"}), AttributeDict({"name": "unlet", "minlen": 3, "flags": "BANG|EXTRA|NEEDARG|SBOXOK|CMDWIN|LOCK_OK", "parser": "parse_cmd_unlet"}), AttributeDict({"name": "unlockvar", "minlen": 4, "flags": "BANG|EXTRA|NEEDARG|SBOXOK|CMDWIN|LOCK_OK", "parser": "parse_cmd_unlockvar"}), AttributeDict({"name": "unmap", "minlen": 3, "flags": "BANG|EXTRA|TRLBAR|NOTRLCOM|CTRLV|CMDWIN|LOCK_OK", "parser": "parse_cmd_common"}), AttributeDict({"name": "unmenu", "minlen": 4, "flags": "BANG|EXTRA|TRLBAR|NOTRLCOM|CTRLV|CMDWIN|LOCK_OK", "parser": "parse_cmd_common"}), AttributeDict({"name": "unsilent", "minlen": 3, "flags": "NEEDARG|EXTRA|NOTRLCOM|SBOXOK|CMDWIN|LOCK_OK", "parser": "parse_cmd_common"}), AttributeDict({"name": "update", "minlen": 2, "flags": "RANGE|WHOLEFOLD|BANG|FILE1|ARGOPT|DFLALL|TRLBAR", "parser": "parse_cmd_common"}), AttributeDict({"name": "vglobal", "minlen": 1, "flags": "RANGE|WHOLEFOLD|EXTRA|DFLALL|CMDWIN|LOCK_OK|NONWHITE_OK", "parser": "parse_cmd_common"}), AttributeDict({"name": "var", "minlen": 2, "flags": "EXTRA|NOTRLCOM|EXPR_ARG|SBOXOK|CMDWIN|LOCK_OK", "parser": "parse_cmd_common"}), AttributeDict({"name": "version", "minlen": 2, "flags": "EXTRA|TRLBAR|CMDWIN|LOCK_OK", "parser": "parse_cmd_common"}), AttributeDict({"name": "verbose", "minlen": 4, "flags": "NEEDARG|RANGE|EXTRA|NOTRLCOM|SBOXOK|CMDWIN|LOCK_OK", "parser": "parse_cmd_common"}), AttributeDict({"name": "vertical", "minlen": 4, "flags": "NEEDARG|EXTRA|NOTRLCOM", "parser": "parse_cmd_common"}), AttributeDict({"name": "visual", "minlen": 2, "flags": "BANG|FILE1|CMDARG|ARGOPT|TRLBAR", "parser": "parse_cmd_common"}), AttributeDict({"name": "view", "minlen": 3, "flags": "BANG|FILE1|CMDARG|ARGOPT|TRLBAR", "parser": "parse_cmd_common"}), AttributeDict({"name": "vimgrep", "minlen": 3, "flags": "RANGE|BANG|NEEDARG|EXTRA|NOTRLCOM|TRLBAR|XFILE|LOCK_OK", "parser": "parse_cmd_common"}), AttributeDict({"name": "vimgrepadd", "minlen": 8, "flags": "RANGE|BANG|NEEDARG|EXTRA|NOTRLCOM|TRLBAR|XFILE|LOCK_OK", "parser": "parse_cmd_common"}), AttributeDict({"name": "vim9cmd", "minlen": 4, "flags": "NEEDARG|EXTRA|NOTRLCOM|CMDWIN|LOCK_OK", "parser": "parse_cmd_common"}), AttributeDict({"name": "vim9script", "minlen": 5, "flags": "WORD1|CMDWIN|LOCK_OK", "parser": "parse_cmd_common"}), AttributeDict({"name": "viusage", "minlen": 3, "flags": "TRLBAR", "parser": "parse_cmd_common"}), AttributeDict({"name": "vmap", "minlen": 2, "flags": "EXTRA|TRLBAR|NOTRLCOM|CTRLV|CMDWIN|LOCK_OK", "parser": "parse_cmd_common"}), AttributeDict({"name": "vmapclear", "minlen": 5, "flags": "EXTRA|TRLBAR|CMDWIN|LOCK_OK", "parser": "parse_cmd_common"}), AttributeDict({"name": "vmenu", "minlen": 3, "flags": "RANGE|ZEROR|EXTRA|TRLBAR|NOTRLCOM|CTRLV|CMDWIN|LOCK_OK", "parser": "parse_cmd_common"}), AttributeDict({"name": "vnoremap", "minlen": 2, "flags": "EXTRA|TRLBAR|NOTRLCOM|CTRLV|CMDWIN|LOCK_OK", "parser": "parse_cmd_common"}), AttributeDict({"name": "vnew", "minlen": 3, "flags": "BANG|FILE1|RANGE|CMDARG|ARGOPT|TRLBAR", "parser": "parse_cmd_common"}), AttributeDict({"name": "vnoremenu", "minlen": 7, "flags": "RANGE|ZEROR|EXTRA|TRLBAR|NOTRLCOM|CTRLV|CMDWIN|LOCK_OK", "parser": "parse_cmd_common"}), AttributeDict({"name": "vsplit", "minlen": 2, "flags": "BANG|FILE1|RANGE|CMDARG|ARGOPT|TRLBAR", "parser": "parse_cmd_common"}), AttributeDict({"name": "vunmap", "minlen": 2, "flags": "EXTRA|TRLBAR|NOTRLCOM|CTRLV|CMDWIN|LOCK_OK", "parser": "parse_cmd_common"}), AttributeDict({"name": "vunmenu", "minlen": 5, "flags": "EXTRA|TRLBAR|NOTRLCOM|CTRLV|CMDWIN|LOCK_OK", "parser": "parse_cmd_common"}), AttributeDict({"name": "write", "minlen": 1, "flags": "RANGE|WHOLEFOLD|BANG|FILE1|ARGOPT|DFLALL|TRLBAR|CMDWIN|LOCK_OK", "parser": "parse_cmd_common"}), AttributeDict({"name": "wNext", "minlen": 2, "flags": "RANGE|WHOLEFOLD|BANG|FILE1|ARGOPT|TRLBAR", "parser": "parse_cmd_common"}), AttributeDict({"name": "wall", "minlen": 2, "flags": "BANG|TRLBAR|CMDWIN|LOCK_OK", "parser": "parse_cmd_common"}), AttributeDict({"name": "while", "minlen": 2, "flags": "EXTRA|NOTRLCOM|SBOXOK|CMDWIN|LOCK_OK", "parser": "parse_cmd_while"}), AttributeDict({"name": "winsize", "minlen": 2, "flags": "EXTRA|NEEDARG|TRLBAR", "parser": "parse_cmd_common"}), AttributeDict({"name": "wincmd", "minlen": 4, "flags": "NEEDARG|WORD1|RANGE|CMDWIN|LOCK_OK", "parser": "parse_wincmd"}), AttributeDict({"name": "windo", "minlen": 4, "flags": "NEEDARG|EXTRA|NOTRLCOM|RANGE|DFLALL|EXPAND", "parser": "parse_cmd_common"}), AttributeDict({"name": "winpos", "minlen": 4, "flags": "EXTRA|TRLBAR|CMDWIN|LOCK_OK", "parser": "parse_cmd_common"}), AttributeDict({"name": "wnext", "minlen": 2, "flags": "RANGE|BANG|FILE1|ARGOPT|TRLBAR", "parser": "parse_cmd_common"}), AttributeDict({"name": "wprevious", "minlen": 2, "flags": "RANGE|BANG|FILE1|ARGOPT|TRLBAR", "parser": "parse_cmd_common"}), AttributeDict({"name": "wq", "minlen": 2, "flags": "RANGE|WHOLEFOLD|BANG|FILE1|ARGOPT|DFLALL|TRLBAR", "parser": "parse_cmd_common"}), AttributeDict({"name": "wqall", "minlen": 3, "flags": "BANG|FILE1|ARGOPT|TRLBAR", "parser": "parse_cmd_common"}), AttributeDict({"name": "wundo", "minlen": 2, "flags": "BANG|NEEDARG|FILE1", "parser": "parse_cmd_common"}), AttributeDict({"name": "wviminfo", "minlen": 2, "flags": "BANG|FILE1|TRLBAR|CMDWIN|LOCK_OK", "parser": "parse_cmd_common"}), AttributeDict({"name": "xit", "minlen": 1, "flags": "RANGE|WHOLEFOLD|BANG|FILE1|ARGOPT|DFLALL|TRLBAR|CMDWIN|LOCK_OK", "parser": "parse_cmd_common"}), AttributeDict({"name": "xall", "minlen": 2, "flags": "BANG|TRLBAR", "parser": "parse_cmd_common"}), AttributeDict({"name": "xmap", "minlen": 2, "flags": "EXTRA|TRLBAR|NOTRLCOM|CTRLV|CMDWIN|LOCK_OK", "parser": "parse_cmd_common"}), AttributeDict({"name": "xmapclear", "minlen": 5, "flags": "EXTRA|TRLBAR|CMDWIN|LOCK_OK", "parser": "parse_cmd_common"}), AttributeDict({"name": "xmenu", "minlen": 3, "flags": "RANGE|ZEROR|EXTRA|TRLBAR|NOTRLCOM|CTRLV|CMDWIN|LOCK_OK", "parser": "parse_cmd_common"}), AttributeDict({"name": "xnoremap", "minlen": 2, "flags": "EXTRA|TRLBAR|NOTRLCOM|CTRLV|CMDWIN|LOCK_OK", "parser": "parse_cmd_common"}), AttributeDict({"name": "xnoremenu", "minlen": 7, "flags": "RANGE|ZEROR|EXTRA|TRLBAR|NOTRLCOM|CTRLV|CMDWIN|LOCK_OK", "parser": "parse_cmd_common"}), AttributeDict({"name": "xrestore", "minlen": 2, "flags": "EXTRA|TRLBAR|CMDWIN|LOCK_OK", "parser": "parse_cmd_common"}), AttributeDict({"name": "xunmap", "minlen": 2, "flags": "EXTRA|TRLBAR|NOTRLCOM|CTRLV|CMDWIN|LOCK_OK", "parser": "parse_cmd_common"}), AttributeDict({"name": "xunmenu", "minlen": 5, "flags": "EXTRA|TRLBAR|NOTRLCOM|CTRLV|CMDWIN|LOCK_OK", "parser": "parse_cmd_common"}), AttributeDict({"name": "yank", "minlen": 1, "flags": "RANGE|WHOLEFOLD|REGSTR|COUNT|TRLBAR|CMDWIN|LOCK_OK", "parser": "parse_cmd_common"}), AttributeDict({"name": "z", "minlen": 1, "flags": "RANGE|WHOLEFOLD|BANG|EXTRA|FLAGS|TRLBAR|CMDWIN|LOCK_OK", "parser": "parse_cmd_common"}), AttributeDict({"name": "!", "minlen": 1, "flags": "RANGE|WHOLEFOLD|BANG|FILES|CMDWIN|LOCK_OK|NONWHITE_OK", "parser": "parse_cmd_common"}), AttributeDict({"name": "#", "minlen": 1, "flags": "RANGE|WHOLEFOLD|COUNT|FLAGS|TRLBAR|CMDWIN|LOCK_OK", "parser": "parse_cmd_common"}), AttributeDict({"name": "&", "minlen": 1, "flags": "RANGE|WHOLEFOLD|EXTRA|CMDWIN|LOCK_OK|MODIFY|NONWHITE_OK", "parser": "parse_cmd_common"}), AttributeDict({"name": "*", "minlen": 1, "flags": "RANGE|WHOLEFOLD|EXTRA|TRLBAR|CMDWIN|LOCK_OK|NONWHITE_OK", "parser": "parse_cmd_common"}), AttributeDict({"name": "<", "minlen": 1, "flags": "RANGE|WHOLEFOLD|COUNT|FLAGS|TRLBAR|CMDWIN|LOCK_OK|MODIFY", "parser": "parse_cmd_common"}), AttributeDict({"name": "=", "minlen": 1, "flags": "RANGE|TRLBAR|DFLALL|FLAGS|CMDWIN|LOCK_OK", "parser": "parse_cmd_common"}), AttributeDict({"name": ">", "minlen": 1, "flags": "RANGE|WHOLEFOLD|COUNT|FLAGS|TRLBAR|CMDWIN|LOCK_OK|MODIFY", "parser": "parse_cmd_common"}), AttributeDict({"name": "@", "minlen": 1, "flags": "RANGE|WHOLEFOLD|EXTRA|TRLBAR|CMDWIN|LOCK_OK|NONWHITE_OK", "parser": "parse_cmd_common"}), AttributeDict({"name": "{", "minlen": 1, "flags": "TRLBAR|LOCK_OK|CMDWIN", "parser": "parse_cmd_common"}), AttributeDict({"name": "}", "minlen": 1, "flags": "TRLBAR|CMDWIN|LOCK_OK", "parser": "parse_cmd_common"}), AttributeDict({"name": "~", "minlen": 1, "flags": "RANGE|WHOLEFOLD|EXTRA|CMDWIN|LOCK_OK|MODIFY|NONWHITE_OK", "parser": "parse_cmd_common"}), AttributeDict({"name": "Next", "minlen": 1, "flags": "EXTRA|RANGE|COUNT|BANG|CMDARG|ARGOPT|TRLBAR", "parser": "parse_cmd_common"}), AttributeDict({"name": "Print", "minlen": 1, "flags": "RANGE|WHOLEFOLD|COUNT|FLAGS|TRLBAR|CMDWIN|LOCK_OK", "parser": "parse_cmd_common"}), AttributeDict({"name": "X", "minlen": 1, "flags": "TRLBAR", "parser": "parse_cmd_common"}), AttributeDict({"name": "++", "minlen": 1, "flags": "EXTRA|TRLBAR|SBOXOK|CMDWIN|LOCK_OK", "parser": "parse_cmd_common"}), AttributeDict({"name": "--", "minlen": 1, "flags": "EXTRA|TRLBAR|SBOXOK|CMDWIN|LOCK_OK", "parser": "parse_cmd_common"})]
# To find new builtin_functions, run the below script.
# $ scripts/update_builtin_functions.sh /path/to/vim/src/evalfunc.c
builtin_functions = [AttributeDict({"name": "abs", "min_argc": 1, "max_argc": 1, "argtype": "FEARG_1"}), AttributeDict({"name": "acos", "min_argc": 1, "max_argc": 1, "argtype": "FEARG_1"}), AttributeDict({"name": "add", "min_argc": 2, "max_argc": 2, "argtype": "FEARG_1"}), AttributeDict({"name": "and", "min_argc": 2, "max_argc": 2, "argtype": "FEARG_1"}), AttributeDict({"name": "append", "min_argc": 2, "max_argc": 2, "argtype": "FEARG_2"}), AttributeDict({"name": "appendbufline", "min_argc": 3, "max_argc": 3, "argtype": "FEARG_3"}), AttributeDict({"name": "argc", "min_argc": 0, "max_argc": 1, "argtype": "0"}), AttributeDict({"name": "argidx", "min_argc": 0, "max_argc": 0, "argtype": "0"}), AttributeDict({"name": "arglistid", "min_argc": 0, "max_argc": 2, "argtype": "0"}), AttributeDict({"name": "argv", "min_argc": 0, "max_argc": 2, "argtype": "0"}), AttributeDict({"name": "asin", "min_argc": 1, "max_argc": 1, "argtype": "FEARG_1"}), AttributeDict({"name": "assert_beeps", "min_argc": 1, "max_argc": 1, "argtype": "FEARG_1"}), AttributeDict({"name": "assert_equal", "min_argc": 2, "max_argc": 3, "argtype": "FEARG_2"}), AttributeDict({"name": "assert_equalfile", "min_argc": 2, "max_argc": 3, "argtype": "FEARG_1"}), AttributeDict({"name": "assert_exception", "min_argc": 1, "max_argc": 2, "argtype": "0"}), AttributeDict({"name": "assert_fails", "min_argc": 1, "max_argc": 5, "argtype": "FEARG_1"}), AttributeDict({"name": "assert_false", "min_argc": 1, "max_argc": 2, "argtype": "FEARG_1"}), AttributeDict({"name": "assert_inrange", "min_argc": 3, "max_argc": 4, "argtype": "FEARG_3"}), AttributeDict({"name": "assert_match", "min_argc": 2, "max_argc": 3, "argtype": "FEARG_2"}), AttributeDict({"name": "assert_nobeep", "min_argc": 1, "max_argc": 1, "argtype": "FEARG_1"}), AttributeDict({"name": "assert_notequal", "min_argc": 2, "max_argc": 3, "argtype": "FEARG_2"}), AttributeDict({"name": "assert_notmatch", "min_argc": 2, "max_argc": 3, "argtype": "FEARG_2"}), AttributeDict({"name": "assert_report", "min_argc": 1, "max_argc": 1, "argtype": "FEARG_1"}), AttributeDict({"name": "assert_true", "min_argc": 1, "max_argc": 2, "argtype": "FEARG_1"}), AttributeDict({"name": "atan", "min_argc": 1, "max_argc": 1, "argtype": "FEARG_1"}), AttributeDict({"name": "atan2", "min_argc": 2, "max_argc": 2, "argtype": "FEARG_1"}), AttributeDict({"name": "autocmd_add", "min_argc": 1, "max_argc": 1, "argtype": "FEARG_1"}), AttributeDict({"name": "autocmd_delete", "min_argc": 1, "max_argc": 1, "argtype": "FEARG_1"}), AttributeDict({"name": "autocmd_get", "min_argc": 0, "max_argc": 1, "argtype": "FEARG_1"}), AttributeDict({"name": "balloon_gettext", "min_argc": 0, "max_argc": 0, "argtype": "0"}), AttributeDict({"name": "balloon_show", "min_argc": 1, "max_argc": 1, "argtype": "FEARG_1"}), AttributeDict({"name": "balloon_split", "min_argc": 1, "max_argc": 1, "argtype": "FEARG_1"}), AttributeDict({"name": "blob2list", "min_argc": 1, "max_argc": 1, "argtype": "FEARG_1"}), AttributeDict({"name": "browse", "min_argc": 4, "max_argc": 4, "argtype": "0"}), AttributeDict({"name": "browsedir", "min_argc": 2, "max_argc": 2, "argtype": "0"}), AttributeDict({"name": "bufadd", "min_argc": 1, "max_argc": 1, "argtype": "FEARG_1"}), AttributeDict({"name": "bufexists", "min_argc": 1, "max_argc": 1, "argtype": "FEARG_1"}), AttributeDict({"name": "buffer_exists", "min_argc": 1, "max_argc": 1, "argtype": "FEARG_1"}), AttributeDict({"name": "buffer_name", "min_argc": 0, "max_argc": 1, "argtype": "FEARG_1"}), AttributeDict({"name": "buffer_number", "min_argc": 0, "max_argc": 1, "argtype": "FEARG_1"}), AttributeDict({"name": "buflisted", "min_argc": 1, "max_argc": 1, "argtype": "FEARG_1"}), AttributeDict({"name": "bufload", "min_argc": 1, "max_argc": 1, "argtype": "FEARG_1"}), AttributeDict({"name": "bufloaded", "min_argc": 1, "max_argc": 1, "argtype": "FEARG_1"}), AttributeDict({"name": "bufname", "min_argc": 0, "max_argc": 1, "argtype": "FEARG_1"}), AttributeDict({"name": "bufnr", "min_argc": 0, "max_argc": 2, "argtype": "FEARG_1"}), AttributeDict({"name": "bufwinid", "min_argc": 1, "max_argc": 1, "argtype": "FEARG_1"}), AttributeDict({"name": "bufwinnr", "min_argc": 1, "max_argc": 1, "argtype": "FEARG_1"}), AttributeDict({"name": "byte2line", "min_argc": 1, "max_argc": 1, "argtype": "FEARG_1"}), AttributeDict({"name": "byteidx", "min_argc": 2, "max_argc": 2, "argtype": "FEARG_1"}), AttributeDict({"name": "byteidxcomp", "min_argc": 2, "max_argc": 2, "argtype": "FEARG_1"}), AttributeDict({"name": "call", "min_argc": 2, "max_argc": 3, "argtype": "FEARG_1"}), AttributeDict({"name": "ceil", "min_argc": 1, "max_argc": 1, "argtype": "FEARG_1"}), AttributeDict({"name": "ch_canread", "min_argc": 1, "max_argc": 1, "argtype": "FEARG_1"}), AttributeDict({"name": "ch_close", "min_argc": 1, "max_argc": 1, "argtype": "FEARG_1"}), AttributeDict({"name": "ch_close_in", "min_argc": 1, "max_argc": 1, "argtype": "FEARG_1"}), AttributeDict({"name": "ch_evalexpr", "min_argc": 2, "max_argc": 3, "argtype": "FEARG_1"}), AttributeDict({"name": "ch_evalraw", "min_argc": 2, "max_argc": 3, "argtype": "FEARG_1"}), AttributeDict({"name": "ch_getbufnr", "min_argc": 2, "max_argc": 2, "argtype": "FEARG_1"}), AttributeDict({"name": "ch_getjob", "min_argc": 1, "max_argc": 1, "argtype": "FEARG_1"}), AttributeDict({"name": "ch_info", "min_argc": 1, "max_argc": 1, "argtype": "FEARG_1"}), AttributeDict({"name": "ch_log", "min_argc": 1, "max_argc": 2, "argtype": "FEARG_1"}), AttributeDict({"name": "ch_logfile", "min_argc": 1, "max_argc": 2, "argtype": "FEARG_1"}), AttributeDict({"name": "ch_open", "min_argc": 1, "max_argc": 2, "argtype": "FEARG_1"}), AttributeDict({"name": "ch_read", "min_argc": 1, "max_argc": 2, "argtype": "FEARG_1"}), AttributeDict({"name": "ch_readblob", "min_argc": 1, "max_argc": 2, "argtype": "FEARG_1"}), AttributeDict({"name": "ch_readraw", "min_argc": 1, "max_argc": 2, "argtype": "FEARG_1"}), AttributeDict({"name": 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"argtype": "0"}), AttributeDict({"name": "test_null_channel", "min_argc": 0, "max_argc": 0, "argtype": "0"}), AttributeDict({"name": "test_null_dict", "min_argc": 0, "max_argc": 0, "argtype": "0"}), AttributeDict({"name": "test_null_function", "min_argc": 0, "max_argc": 0, "argtype": "0"}), AttributeDict({"name": "test_null_job", "min_argc": 0, "max_argc": 0, "argtype": "0"}), AttributeDict({"name": "test_null_list", "min_argc": 0, "max_argc": 0, "argtype": "0"}), AttributeDict({"name": "test_null_partial", "min_argc": 0, "max_argc": 0, "argtype": "0"}), AttributeDict({"name": "test_null_string", "min_argc": 0, "max_argc": 0, "argtype": "0"}), AttributeDict({"name": "test_option_not_set", "min_argc": 1, "max_argc": 1, "argtype": "FEARG_1"}), AttributeDict({"name": "test_override", "min_argc": 2, "max_argc": 2, "argtype": "FEARG_2"}), AttributeDict({"name": "test_refcount", "min_argc": 1, "max_argc": 1, "argtype": "FEARG_1"}), AttributeDict({"name": "test_scrollbar", "min_argc": 3, "max_argc": 3, "argtype": "FEARG_2"}), AttributeDict({"name": "test_setmouse", "min_argc": 2, "max_argc": 2, "argtype": "0"}), AttributeDict({"name": "test_settime", "min_argc": 1, "max_argc": 1, "argtype": "FEARG_1"}), AttributeDict({"name": "test_srand_seed", "min_argc": 0, "max_argc": 1, "argtype": "FEARG_1"}), AttributeDict({"name": "test_unknown", "min_argc": 0, "max_argc": 0, "argtype": "0"}), AttributeDict({"name": "test_void", "min_argc": 0, "max_argc": 0, "argtype": "0"}), AttributeDict({"name": "timer_info", "min_argc": 0, "max_argc": 1, "argtype": "FEARG_1"}), AttributeDict({"name": "timer_pause", "min_argc": 2, "max_argc": 2, "argtype": "FEARG_1"}), AttributeDict({"name": "timer_start", "min_argc": 2, "max_argc": 3, "argtype": "FEARG_1"}), AttributeDict({"name": "timer_stop", "min_argc": 1, "max_argc": 1, "argtype": "FEARG_1"}), AttributeDict({"name": "timer_stopall", "min_argc": 0, "max_argc": 0, "argtype": "0"}), AttributeDict({"name": "tolower", "min_argc": 1, "max_argc": 1, "argtype": "FEARG_1"}), AttributeDict({"name": "toupper", "min_argc": 1, "max_argc": 1, "argtype": "FEARG_1"}), AttributeDict({"name": "tr", "min_argc": 3, "max_argc": 3, "argtype": "FEARG_1"}), AttributeDict({"name": "trim", "min_argc": 1, "max_argc": 3, "argtype": "FEARG_1"}), AttributeDict({"name": "trunc", "min_argc": 1, "max_argc": 1, "argtype": "FEARG_1"}), AttributeDict({"name": "type", "min_argc": 1, "max_argc": 1, "argtype": "FEARG_1"}), AttributeDict({"name": "typename", "min_argc": 1, "max_argc": 1, "argtype": "FEARG_1"}), AttributeDict({"name": "undofile", "min_argc": 1, "max_argc": 1, "argtype": "FEARG_1"}), AttributeDict({"name": "undotree", "min_argc": 0, "max_argc": 0, "argtype": "0"}), AttributeDict({"name": "uniq", "min_argc": 1, "max_argc": 3, "argtype": "FEARG_1"}), AttributeDict({"name": "values", "min_argc": 1, "max_argc": 1, "argtype": "FEARG_1"}), AttributeDict({"name": "virtcol", "min_argc": 1, "max_argc": 1, "argtype": "FEARG_1"}), AttributeDict({"name": "virtcol2col", "min_argc": 3, "max_argc": 3, "argtype": "FEARG_1"}), AttributeDict({"name": "visualmode", "min_argc": 0, "max_argc": 1, "argtype": "0"}), AttributeDict({"name": "wildmenumode", "min_argc": 0, "max_argc": 0, "argtype": "0"}), AttributeDict({"name": "win_execute", "min_argc": 2, "max_argc": 3, "argtype": "FEARG_2"}), AttributeDict({"name": "win_findbuf", "min_argc": 1, "max_argc": 1, "argtype": "FEARG_1"}), AttributeDict({"name": "win_getid", "min_argc": 0, "max_argc": 2, "argtype": "FEARG_1"}), AttributeDict({"name": "win_gettype", "min_argc": 0, "max_argc": 1, "argtype": "FEARG_1"}), AttributeDict({"name": "win_gotoid", "min_argc": 1, "max_argc": 1, "argtype": "FEARG_1"}), AttributeDict({"name": "win_id2tabwin", "min_argc": 1, "max_argc": 1, "argtype": "FEARG_1"}), AttributeDict({"name": "win_id2win", "min_argc": 1, "max_argc": 1, "argtype": "FEARG_1"}), AttributeDict({"name": "win_move_separator", "min_argc": 2, "max_argc": 2, "argtype": "FEARG_1"}), AttributeDict({"name": "win_move_statusline", "min_argc": 2, "max_argc": 2, "argtype": "FEARG_1"}), AttributeDict({"name": "win_screenpos", "min_argc": 1, "max_argc": 1, "argtype": "FEARG_1"}), AttributeDict({"name": "win_splitmove", "min_argc": 2, "max_argc": 3, "argtype": "FEARG_1"}), AttributeDict({"name": "winbufnr", "min_argc": 1, "max_argc": 1, "argtype": "FEARG_1"}), AttributeDict({"name": "wincol", "min_argc": 0, "max_argc": 0, "argtype": "0"}), AttributeDict({"name": "windowsversion", "min_argc": 0, "max_argc": 0, "argtype": "0"}), AttributeDict({"name": "winheight", "min_argc": 1, "max_argc": 1, "argtype": "FEARG_1"}), AttributeDict({"name": "winlayout", "min_argc": 0, "max_argc": 1, "argtype": "FEARG_1"}), AttributeDict({"name": "winline", "min_argc": 0, "max_argc": 0, "argtype": "0"}), AttributeDict({"name": "winnr", "min_argc": 0, "max_argc": 1, "argtype": "FEARG_1"}), AttributeDict({"name": "winrestcmd", "min_argc": 0, "max_argc": 0, "argtype": "0"}), AttributeDict({"name": "winrestview", "min_argc": 1, "max_argc": 1, "argtype": "FEARG_1"}), AttributeDict({"name": "winsaveview", "min_argc": 0, "max_argc": 0, "argtype": "0"}), AttributeDict({"name": "winwidth", "min_argc": 1, "max_argc": 1, "argtype": "FEARG_1"}), AttributeDict({"name": "wordcount", "min_argc": 0, "max_argc": 0, "argtype": "0"}), AttributeDict({"name": "writefile", "min_argc": 2, "max_argc": 3, "argtype": "FEARG_1"}), AttributeDict({"name": "xor", "min_argc": 2, "max_argc": 2, "argtype": "FEARG_1"})]
|
class VimLParser:
def __init__(self, *a000):
pass
def push_context(self, node):
pass
def pop_context(self):
pass
def find_context(self, type):
pass
def add_node(self, node):
pass
def check_missing_endfunction(self, ends, pos):
pass
def check_missing_endif(self, ends, pos):
pass
def check_missing_endtry(self, ends, pos):
pass
def check_missing_endwhile(self, ends, pos):
pass
def check_missing_endfor(self, ends, pos):
pass
def parse(self, reader):
pass
def parse_one_cmd(self):
pass
def parse_command_modifiers(self):
pass
def parse_range(self):
pass
def parse_pattern(self, delimiter):
pass
def parse_command_modifiers(self):
pass
def _parse_command(self, parser):
pass
def find_command(self):
pass
def parse_hashbang(self):
pass
def parse_argopt(self):
pass
def parse_argcmd(self):
pass
def read_cmdarg(self):
pass
def parse_comment(self):
pass
def parse_trail(self):
pass
def parse_cmd_modifier_range(self):
pass
def parse_cmd_common(self):
pass
def separate_nextcmd(self):
pass
def skip_vimgrep_pat(self):
pass
def parse_cmd_append(self):
pass
def parse_cmd_insert(self):
pass
def parse_cmd_loadkeymap(self):
pass
def parse_cmd_lua(self):
pass
def parse_cmd_mzscheme(self):
pass
def parse_cmd_perl(self):
pass
def parse_cmd_python(self):
pass
def parse_cmd_python3(self):
pass
def parse_cmd_ruby(self):
pass
def parse_cmd_tcl(self):
pass
def parse_cmd_finish(self):
pass
def parse_cmd_usercmd(self):
pass
def parse_cmd_function(self):
pass
def parse_cmd_endfunction(self):
pass
def parse_cmd_delfunction(self):
pass
def parse_cmd_return(self):
pass
def parse_cmd_call(self):
pass
def parse_heredoc(self):
pass
def parse_cmd_let(self):
pass
def parse_cmd_const(self):
pass
def parse_cmd_unlet(self):
pass
def parse_cmd_lockvar(self):
pass
def parse_cmd_unlockvar(self):
pass
def parse_cmd_if(self):
pass
def parse_cmd_elseif(self):
pass
def parse_cmd_elseif(self):
pass
def parse_cmd_endif(self):
pass
def parse_cmd_while(self):
pass
def parse_cmd_endwhile(self):
pass
def parse_cmd_for(self):
pass
def parse_cmd_endfor(self):
pass
def parse_cmd_continue(self):
pass
def parse_cmd_break(self):
pass
def parse_cmd_try(self):
pass
def parse_cmd_catch(self):
pass
def parse_cmd_finally(self):
pass
def parse_cmd_endtry(self):
pass
def parse_cmd_throw(self):
pass
def parse_cmd_eval(self):
pass
def parse_cmd_echo(self):
pass
def parse_cmd_echon(self):
pass
def parse_cmd_echohl(self):
pass
def parse_cmd_echomsg(self):
pass
def parse_cmd_echoerr(self):
pass
def parse_cmd_echoconsole(self):
pass
def parse_cmd_execute(self):
pass
def parse_expr(self):
pass
def parse_exprlist(self):
pass
def parse_lvalue_func(self):
pass
def parse_lvalue_func(self):
pass
def parse_constlvalue(self):
pass
def parse_lvaluelist(self):
pass
def parse_letlhs(self):
pass
def parse_constlhs(self):
pass
def ends_excmds(self, c):
pass
def parse_wincmd(self):
pass
def parse_cmd_syntax(self):
pass
| 86 | 0 | 16 | 0 | 15 | 1 | 5 | 0.06 | 0 | 5 | 5 | 0 | 85 | 5 | 85 | 85 | 1,435 | 85 | 1,283 | 235 | 1,197 | 71 | 1,128 | 235 | 1,042 | 50 | 0 | 5 | 389 |
144,265 |
Kuniwak/vint
|
Kuniwak_vint/vint/_bundles/vimlparser.py
|
vint._bundles.vimlparser.StringReader
|
class StringReader:
def __init__(self, lines):
self.buf = []
self.pos = []
lnum = 0
offset = 0
while lnum < viml_len(lines):
col = 0
for c in viml_split(lines[lnum], "\\zs"):
viml_add(self.buf, c)
viml_add(self.pos, [lnum + 1, col + 1, offset])
col += viml_len(c)
offset += viml_len(c)
while lnum + 1 < viml_len(lines) and viml_eqregh(lines[lnum + 1], "^\\s*\\\\"):
skip = TRUE
col = 0
for c in viml_split(lines[lnum + 1], "\\zs"):
if skip:
if c == "\\":
skip = FALSE
else:
viml_add(self.buf, c)
viml_add(self.pos, [lnum + 2, col + 1, offset])
col += viml_len(c)
offset += viml_len(c)
lnum += 1
offset += 1
viml_add(self.buf, "<EOL>")
viml_add(self.pos, [lnum + 1, col + 1, offset])
lnum += 1
offset += 1
# for <EOF>
viml_add(self.pos, [lnum + 1, 0, offset])
self.i = 0
def eof(self):
return self.i >= viml_len(self.buf)
def tell(self):
return self.i
def seek_set(self, i):
self.i = i
def seek_cur(self, i):
self.i = self.i + i
def seek_end(self, i):
self.i = viml_len(self.buf) + i
def p(self, i):
if self.i >= viml_len(self.buf):
return "<EOF>"
return self.buf[self.i + i]
def peek(self):
if self.i >= viml_len(self.buf):
return "<EOF>"
return self.buf[self.i]
def get(self):
if self.i >= viml_len(self.buf):
return "<EOF>"
self.i += 1
return self.buf[self.i - 1]
def peekn(self, n):
pos = self.tell()
r = self.getn(n)
self.seek_set(pos)
return r
def getn(self, n):
r = ""
j = 0
while self.i < viml_len(self.buf) and (n < 0 or j < n):
c = self.buf[self.i]
if c == "<EOL>":
break
r += c
self.i += 1
j += 1
return r
def peekline(self):
return self.peekn(-1)
def readline(self):
r = self.getn(-1)
self.get()
return r
def getstr(self, begin, end):
r = ""
for i in viml_range(begin.i, end.i - 1):
if i >= viml_len(self.buf):
break
c = self.buf[i]
if c == "<EOL>":
c = "\n"
r += c
return r
def getpos(self):
lnum, col, offset = self.pos[self.i]
return AttributeDict({"i": self.i, "lnum": lnum, "col": col, "offset": offset})
def setpos(self, pos):
self.i = pos.i
def read_alpha(self):
r = ""
while isalpha(self.peekn(1)):
r += self.getn(1)
return r
def read_alnum(self):
r = ""
while isalnum(self.peekn(1)):
r += self.getn(1)
return r
def read_digit(self):
r = ""
while isdigit(self.peekn(1)):
r += self.getn(1)
return r
def read_odigit(self):
r = ""
while isodigit(self.peekn(1)):
r += self.getn(1)
return r
def read_blob(self):
r = ""
while 1:
s = self.peekn(2)
if viml_eqregh(s, "^[0-9A-Fa-f][0-9A-Fa-f]$"):
r += self.getn(2)
elif viml_eqregh(s, "^\\.[0-9A-Fa-f]$"):
r += self.getn(1)
elif viml_eqregh(s, "^[0-9A-Fa-f][^0-9A-Fa-f]$"):
raise VimLParserException(Err("E973: Blob literal should have an even number of hex characters:" + s, self.getpos()))
else:
break
return r
def read_xdigit(self):
r = ""
while isxdigit(self.peekn(1)):
r += self.getn(1)
return r
def read_bdigit(self):
r = ""
while self.peekn(1) == "0" or self.peekn(1) == "1":
r += self.getn(1)
return r
def read_integer(self):
r = ""
c = self.peekn(1)
if c == "-" or c == "+":
r = self.getn(1)
return r + self.read_digit()
def read_word(self):
r = ""
while iswordc(self.peekn(1)):
r += self.getn(1)
return r
def read_white(self):
r = ""
while iswhite(self.peekn(1)):
r += self.getn(1)
return r
def read_nonwhite(self):
r = ""
ch = self.peekn(1)
while not iswhite(ch) and ch != "":
r += self.getn(1)
ch = self.peekn(1)
return r
def read_name(self):
r = ""
while isnamec(self.peekn(1)):
r += self.getn(1)
return r
def skip_white(self):
while iswhite(self.peekn(1)):
self.seek_cur(1)
def skip_white_and_colon(self):
while TRUE:
c = self.peekn(1)
if not iswhite(c) and c != ":":
break
self.seek_cur(1)
|
class StringReader:
def __init__(self, lines):
pass
def eof(self):
pass
def tell(self):
pass
def seek_set(self, i):
pass
def seek_cur(self, i):
pass
def seek_end(self, i):
pass
def p(self, i):
pass
def peek(self):
pass
def get(self):
pass
def peekn(self, n):
pass
def getn(self, n):
pass
def peekline(self):
pass
def readline(self):
pass
def getstr(self, begin, end):
pass
def getpos(self):
pass
def setpos(self, pos):
pass
def read_alpha(self):
pass
def read_alnum(self):
pass
def read_digit(self):
pass
def read_odigit(self):
pass
def read_blob(self):
pass
def read_xdigit(self):
pass
def read_bdigit(self):
pass
def read_integer(self):
pass
def read_word(self):
pass
def read_white(self):
pass
def read_nonwhite(self):
pass
def read_name(self):
pass
def skip_white(self):
pass
def skip_white_and_colon(self):
pass
| 31 | 0 | 6 | 0 | 6 | 0 | 2 | 0.01 | 0 | 2 | 2 | 0 | 30 | 3 | 30 | 30 | 204 | 30 | 173 | 65 | 142 | 1 | 169 | 65 | 138 | 7 | 0 | 5 | 62 |
144,266 |
Kuniwak/vint
|
Kuniwak_vint/vint/_bundles/vimlparser.py
|
vint._bundles.vimlparser.RegexpParser
|
class RegexpParser:
RE_VERY_NOMAGIC = 1
RE_NOMAGIC = 2
RE_MAGIC = 3
RE_VERY_MAGIC = 4
def __init__(self, reader, cmd, delim):
self.reader = reader
self.cmd = cmd
self.delim = delim
self.reg_magic = self.RE_MAGIC
def isend(self, c):
return c == "<EOF>" or c == "<EOL>" or c == self.delim
def parse_regexp(self):
prevtoken = ""
ntoken = ""
ret = []
if self.reader.peekn(4) == "\\%#=":
epos = self.reader.getpos()
token = self.reader.getn(5)
if token != "\\%#=0" and token != "\\%#=1" and token != "\\%#=2":
raise VimLParserException(Err("E864: \\%#= can only be followed by 0, 1, or 2", epos))
viml_add(ret, token)
while not self.isend(self.reader.peek()):
prevtoken = ntoken
token, ntoken = self.get_token()
if ntoken == "\\m":
self.reg_magic = self.RE_MAGIC
elif ntoken == "\\M":
self.reg_magic = self.RE_NOMAGIC
elif ntoken == "\\v":
self.reg_magic = self.RE_VERY_MAGIC
elif ntoken == "\\V":
self.reg_magic = self.RE_VERY_NOMAGIC
elif ntoken == "\\*":
# '*' is not magic as the very first character.
if prevtoken == "" or prevtoken == "\\^" or prevtoken == "\\&" or prevtoken == "\\|" or prevtoken == "\\(":
ntoken = "*"
elif ntoken == "\\^":
# '^' is only magic as the very first character.
if self.reg_magic != self.RE_VERY_MAGIC and prevtoken != "" and prevtoken != "\\&" and prevtoken != "\\|" and prevtoken != "\\n" and prevtoken != "\\(" and prevtoken != "\\%(":
ntoken = "^"
elif ntoken == "\\$":
# '$' is only magic as the very last character
pos = self.reader.tell()
if self.reg_magic != self.RE_VERY_MAGIC:
while not self.isend(self.reader.peek()):
t, n = self.get_token()
# XXX: Vim doesn't check \v and \V?
if n == "\\c" or n == "\\C" or n == "\\m" or n == "\\M" or n == "\\Z":
continue
if n != "\\|" and n != "\\&" and n != "\\n" and n != "\\)":
ntoken = "$"
break
self.reader.seek_set(pos)
elif ntoken == "\\?":
# '?' is literal in '?' command.
if self.cmd == "?":
ntoken = "?"
viml_add(ret, ntoken)
return ret
# @return [actual_token, normalized_token]
def get_token(self):
if self.reg_magic == self.RE_VERY_MAGIC:
return self.get_token_very_magic()
elif self.reg_magic == self.RE_MAGIC:
return self.get_token_magic()
elif self.reg_magic == self.RE_NOMAGIC:
return self.get_token_nomagic()
elif self.reg_magic == self.RE_VERY_NOMAGIC:
return self.get_token_very_nomagic()
def get_token_very_magic(self):
if self.isend(self.reader.peek()):
return ["<END>", "<END>"]
c = self.reader.get()
if c == "\\":
return self.get_token_backslash_common()
elif c == "*":
return ["*", "\\*"]
elif c == "+":
return ["+", "\\+"]
elif c == "=":
return ["=", "\\="]
elif c == "?":
return ["?", "\\?"]
elif c == "{":
return self.get_token_brace("{")
elif c == "@":
return self.get_token_at("@")
elif c == "^":
return ["^", "\\^"]
elif c == "$":
return ["$", "\\$"]
elif c == ".":
return [".", "\\."]
elif c == "<":
return ["<", "\\<"]
elif c == ">":
return [">", "\\>"]
elif c == "%":
return self.get_token_percent("%")
elif c == "[":
return self.get_token_sq("[")
elif c == "~":
return ["~", "\\~"]
elif c == "|":
return ["|", "\\|"]
elif c == "&":
return ["&", "\\&"]
elif c == "(":
return ["(", "\\("]
elif c == ")":
return [")", "\\)"]
return [c, c]
def get_token_magic(self):
if self.isend(self.reader.peek()):
return ["<END>", "<END>"]
c = self.reader.get()
if c == "\\":
pos = self.reader.tell()
c = self.reader.get()
if c == "+":
return ["\\+", "\\+"]
elif c == "=":
return ["\\=", "\\="]
elif c == "?":
return ["\\?", "\\?"]
elif c == "{":
return self.get_token_brace("\\{")
elif c == "@":
return self.get_token_at("\\@")
elif c == "<":
return ["\\<", "\\<"]
elif c == ">":
return ["\\>", "\\>"]
elif c == "%":
return self.get_token_percent("\\%")
elif c == "|":
return ["\\|", "\\|"]
elif c == "&":
return ["\\&", "\\&"]
elif c == "(":
return ["\\(", "\\("]
elif c == ")":
return ["\\)", "\\)"]
self.reader.seek_set(pos)
return self.get_token_backslash_common()
elif c == "*":
return ["*", "\\*"]
elif c == "^":
return ["^", "\\^"]
elif c == "$":
return ["$", "\\$"]
elif c == ".":
return [".", "\\."]
elif c == "[":
return self.get_token_sq("[")
elif c == "~":
return ["~", "\\~"]
return [c, c]
def get_token_nomagic(self):
if self.isend(self.reader.peek()):
return ["<END>", "<END>"]
c = self.reader.get()
if c == "\\":
pos = self.reader.tell()
c = self.reader.get()
if c == "*":
return ["\\*", "\\*"]
elif c == "+":
return ["\\+", "\\+"]
elif c == "=":
return ["\\=", "\\="]
elif c == "?":
return ["\\?", "\\?"]
elif c == "{":
return self.get_token_brace("\\{")
elif c == "@":
return self.get_token_at("\\@")
elif c == ".":
return ["\\.", "\\."]
elif c == "<":
return ["\\<", "\\<"]
elif c == ">":
return ["\\>", "\\>"]
elif c == "%":
return self.get_token_percent("\\%")
elif c == "~":
return ["\\~", "\\^"]
elif c == "[":
return self.get_token_sq("\\[")
elif c == "|":
return ["\\|", "\\|"]
elif c == "&":
return ["\\&", "\\&"]
elif c == "(":
return ["\\(", "\\("]
elif c == ")":
return ["\\)", "\\)"]
self.reader.seek_set(pos)
return self.get_token_backslash_common()
elif c == "^":
return ["^", "\\^"]
elif c == "$":
return ["$", "\\$"]
return [c, c]
def get_token_very_nomagic(self):
if self.isend(self.reader.peek()):
return ["<END>", "<END>"]
c = self.reader.get()
if c == "\\":
pos = self.reader.tell()
c = self.reader.get()
if c == "*":
return ["\\*", "\\*"]
elif c == "+":
return ["\\+", "\\+"]
elif c == "=":
return ["\\=", "\\="]
elif c == "?":
return ["\\?", "\\?"]
elif c == "{":
return self.get_token_brace("\\{")
elif c == "@":
return self.get_token_at("\\@")
elif c == "^":
return ["\\^", "\\^"]
elif c == "$":
return ["\\$", "\\$"]
elif c == "<":
return ["\\<", "\\<"]
elif c == ">":
return ["\\>", "\\>"]
elif c == "%":
return self.get_token_percent("\\%")
elif c == "~":
return ["\\~", "\\~"]
elif c == "[":
return self.get_token_sq("\\[")
elif c == "|":
return ["\\|", "\\|"]
elif c == "&":
return ["\\&", "\\&"]
elif c == "(":
return ["\\(", "\\("]
elif c == ")":
return ["\\)", "\\)"]
self.reader.seek_set(pos)
return self.get_token_backslash_common()
return [c, c]
def get_token_backslash_common(self):
cclass = "iIkKfFpPsSdDxXoOwWhHaAlLuU"
c = self.reader.get()
if c == "\\":
return ["\\\\", "\\\\"]
elif viml_stridx(cclass, c) != -1:
return ["\\" + c, "\\" + c]
elif c == "_":
epos = self.reader.getpos()
c = self.reader.get()
if viml_stridx(cclass, c) != -1:
return ["\\_" + c, "\\_ . c"]
elif c == "^":
return ["\\_^", "\\_^"]
elif c == "$":
return ["\\_$", "\\_$"]
elif c == ".":
return ["\\_.", "\\_."]
elif c == "[":
return self.get_token_sq("\\_[")
raise VimLParserException(Err("E63: invalid use of \\_", epos))
elif viml_stridx("etrb", c) != -1:
return ["\\" + c, "\\" + c]
elif viml_stridx("123456789", c) != -1:
return ["\\" + c, "\\" + c]
elif c == "z":
epos = self.reader.getpos()
c = self.reader.get()
if viml_stridx("123456789", c) != -1:
return ["\\z" + c, "\\z" + c]
elif c == "s":
return ["\\zs", "\\zs"]
elif c == "e":
return ["\\ze", "\\ze"]
elif c == "(":
return ["\\z(", "\\z("]
raise VimLParserException(Err("E68: Invalid character after \\z", epos))
elif viml_stridx("cCmMvVZ", c) != -1:
return ["\\" + c, "\\" + c]
elif c == "%":
epos = self.reader.getpos()
c = self.reader.get()
if c == "d":
r = self.getdecchrs()
if r != "":
return ["\\%d" + r, "\\%d" + r]
elif c == "o":
r = self.getoctchrs()
if r != "":
return ["\\%o" + r, "\\%o" + r]
elif c == "x":
r = self.gethexchrs(2)
if r != "":
return ["\\%x" + r, "\\%x" + r]
elif c == "u":
r = self.gethexchrs(4)
if r != "":
return ["\\%u" + r, "\\%u" + r]
elif c == "U":
r = self.gethexchrs(8)
if r != "":
return ["\\%U" + r, "\\%U" + r]
raise VimLParserException(Err("E678: Invalid character after \\%[dxouU]", epos))
return ["\\" + c, c]
# \{}
def get_token_brace(self, pre):
r = ""
minus = ""
comma = ""
n = ""
m = ""
if self.reader.p(0) == "-":
minus = self.reader.get()
r += minus
if isdigit(self.reader.p(0)):
n = self.reader.read_digit()
r += n
if self.reader.p(0) == ",":
comma = self.rader.get()
r += comma
if isdigit(self.reader.p(0)):
m = self.reader.read_digit()
r += m
if self.reader.p(0) == "\\":
r += self.reader.get()
if self.reader.p(0) != "}":
raise VimLParserException(Err("E554: Syntax error in \\{...}", self.reader.getpos()))
self.reader.get()
return [pre + r, "\\{" + minus + n + comma + m + "}"]
# \[]
def get_token_sq(self, pre):
start = self.reader.tell()
r = ""
# Complement of range
if self.reader.p(0) == "^":
r += self.reader.get()
# At the start ']' and '-' mean the literal character.
if self.reader.p(0) == "]" or self.reader.p(0) == "-":
r += self.reader.get()
while TRUE:
startc = 0
c = self.reader.p(0)
if self.isend(c):
# If there is no matching ']', we assume the '[' is a normal character.
self.reader.seek_set(start)
return [pre, "["]
elif c == "]":
self.reader.seek_cur(1)
return [pre + r + "]", "\\[" + r + "]"]
elif c == "[":
e = self.get_token_sq_char_class()
if e == "":
e = self.get_token_sq_equi_class()
if e == "":
e = self.get_token_sq_coll_element()
if e == "":
e, startc = self.get_token_sq_c()
r += e
else:
e, startc = self.get_token_sq_c()
r += e
if startc != 0 and self.reader.p(0) == "-" and not self.isend(self.reader.p(1)) and not (self.reader.p(1) == "\\" and self.reader.p(2) == "n"):
self.reader.seek_cur(1)
r += "-"
c = self.reader.p(0)
if c == "[":
e = self.get_token_sq_coll_element()
if e != "":
endc = viml_char2nr(e[2])
else:
e, endc = self.get_token_sq_c()
r += e
else:
e, endc = self.get_token_sq_c()
r += e
if startc > endc or endc > startc + 256:
raise VimLParserException(Err("E16: Invalid range", self.reader.getpos()))
# [c]
def get_token_sq_c(self):
c = self.reader.p(0)
if c == "\\":
self.reader.seek_cur(1)
c = self.reader.p(0)
if c == "n":
self.reader.seek_cur(1)
return ["\\n", 0]
elif c == "r":
self.reader.seek_cur(1)
return ["\\r", 13]
elif c == "t":
self.reader.seek_cur(1)
return ["\\t", 9]
elif c == "e":
self.reader.seek_cur(1)
return ["\\e", 27]
elif c == "b":
self.reader.seek_cur(1)
return ["\\b", 8]
elif viml_stridx("]^-\\", c) != -1:
self.reader.seek_cur(1)
return ["\\" + c, viml_char2nr(c)]
elif viml_stridx("doxuU", c) != -1:
c, n = self.get_token_sq_coll_char()
return [c, n]
else:
return ["\\", viml_char2nr("\\")]
elif c == "-":
self.reader.seek_cur(1)
return ["-", viml_char2nr("-")]
else:
self.reader.seek_cur(1)
return [c, viml_char2nr(c)]
# [\d123]
def get_token_sq_coll_char(self):
pos = self.reader.tell()
c = self.reader.get()
if c == "d":
r = self.getdecchrs()
n = viml_str2nr(r, 10)
elif c == "o":
r = self.getoctchrs()
n = viml_str2nr(r, 8)
elif c == "x":
r = self.gethexchrs(2)
n = viml_str2nr(r, 16)
elif c == "u":
r = self.gethexchrs(4)
n = viml_str2nr(r, 16)
elif c == "U":
r = self.gethexchrs(8)
n = viml_str2nr(r, 16)
else:
r = ""
if r == "":
self.reader.seek_set(pos)
return "\\"
return ["\\" + c + r, n]
# [[.a.]]
def get_token_sq_coll_element(self):
if self.reader.p(0) == "[" and self.reader.p(1) == "." and not self.isend(self.reader.p(2)) and self.reader.p(3) == "." and self.reader.p(4) == "]":
return self.reader.getn(5)
return ""
# [[=a=]]
def get_token_sq_equi_class(self):
if self.reader.p(0) == "[" and self.reader.p(1) == "=" and not self.isend(self.reader.p(2)) and self.reader.p(3) == "=" and self.reader.p(4) == "]":
return self.reader.getn(5)
return ""
# [[:alpha:]]
def get_token_sq_char_class(self):
class_names = ["alnum", "alpha", "blank", "cntrl", "digit", "graph", "lower", "print", "punct", "space", "upper", "xdigit", "tab", "return", "backspace", "escape"]
pos = self.reader.tell()
if self.reader.p(0) == "[" and self.reader.p(1) == ":":
self.reader.seek_cur(2)
r = self.reader.read_alpha()
if self.reader.p(0) == ":" and self.reader.p(1) == "]":
self.reader.seek_cur(2)
for name in class_names:
if r == name:
return "[:" + name + ":]"
self.reader.seek_set(pos)
return ""
# \@...
def get_token_at(self, pre):
epos = self.reader.getpos()
c = self.reader.get()
if c == ">":
return [pre + ">", "\\@>"]
elif c == "=":
return [pre + "=", "\\@="]
elif c == "!":
return [pre + "!", "\\@!"]
elif c == "<":
c = self.reader.get()
if c == "=":
return [pre + "<=", "\\@<="]
elif c == "!":
return [pre + "<!", "\\@<!"]
raise VimLParserException(Err("E64: @ follows nothing", epos))
# \%...
def get_token_percent(self, pre):
c = self.reader.get()
if c == "^":
return [pre + "^", "\\%^"]
elif c == "$":
return [pre + "$", "\\%$"]
elif c == "V":
return [pre + "V", "\\%V"]
elif c == "#":
return [pre + "#", "\\%#"]
elif c == "[":
return self.get_token_percent_sq(pre + "[")
elif c == "(":
return [pre + "(", "\\%("]
else:
return self.get_token_mlcv(pre)
# \%[]
def get_token_percent_sq(self, pre):
r = ""
while TRUE:
c = self.reader.peek()
if self.isend(c):
raise VimLParserException(Err("E69: Missing ] after \\%[", self.reader.getpos()))
elif c == "]":
if r == "":
raise VimLParserException(Err("E70: Empty \\%[", self.reader.getpos()))
self.reader.seek_cur(1)
break
self.reader.seek_cur(1)
r += c
return [pre + r + "]", "\\%[" + r + "]"]
# \%'m \%l \%c \%v
def get_token_mlvc(self, pre):
r = ""
cmp = ""
if self.reader.p(0) == "<" or self.reader.p(0) == ">":
cmp = self.reader.get()
r += cmp
if self.reader.p(0) == "'":
r += self.reader.get()
c = self.reader.p(0)
if self.isend(c):
# FIXME: Should be error? Vim allow this.
c = ""
else:
c = self.reader.get()
return [pre + r + c, "\\%" + cmp + "'" + c]
elif isdigit(self.reader.p(0)):
d = self.reader.read_digit()
r += d
c = self.reader.p(0)
if c == "l":
self.reader.get()
return [pre + r + "l", "\\%" + cmp + d + "l"]
elif c == "c":
self.reader.get()
return [pre + r + "c", "\\%" + cmp + d + "c"]
elif c == "v":
self.reader.get()
return [pre + r + "v", "\\%" + cmp + d + "v"]
raise VimLParserException(Err("E71: Invalid character after %", self.reader.getpos()))
def getdecchrs(self):
return self.reader.read_digit()
def getoctchrs(self):
return self.reader.read_odigit()
def gethexchrs(self, n):
r = ""
for i in viml_range(n):
c = self.reader.peek()
if not isxdigit(c):
break
r += self.reader.get()
return r
|
class RegexpParser:
def __init__(self, reader, cmd, delim):
pass
def isend(self, c):
pass
def parse_regexp(self):
pass
def get_token(self):
pass
def get_token_very_magic(self):
pass
def get_token_magic(self):
pass
def get_token_nomagic(self):
pass
def get_token_very_nomagic(self):
pass
def get_token_backslash_common(self):
pass
def get_token_brace(self, pre):
pass
def get_token_sq(self, pre):
pass
def get_token_sq_c(self):
pass
def get_token_sq_coll_char(self):
pass
def get_token_sq_coll_element(self):
pass
def get_token_sq_equi_class(self):
pass
def get_token_sq_char_class(self):
pass
def get_token_at(self, pre):
pass
def get_token_percent(self, pre):
pass
def get_token_percent_sq(self, pre):
pass
def get_token_mlvc(self, pre):
pass
def getdecchrs(self):
pass
def getoctchrs(self):
pass
def gethexchrs(self, n):
pass
| 24 | 0 | 24 | 0 | 23 | 1 | 9 | 0.05 | 0 | 1 | 1 | 0 | 23 | 4 | 23 | 23 | 584 | 23 | 540 | 83 | 516 | 26 | 410 | 83 | 386 | 28 | 0 | 5 | 216 |
144,267 |
Kuniwak/vint
|
Kuniwak_vint/vint/_bundles/vimlparser.py
|
vint._bundles.vimlparser.LvalueParser
|
class LvalueParser(ExprParser):
def parse(self):
return self.parse_lv8()
# expr8: expr8[expr1]
# expr8[expr1 : expr1]
# expr8.name
def parse_lv8(self):
left = self.parse_lv9()
while TRUE:
pos = self.reader.tell()
c = self.reader.peek()
token = self.tokenizer.get()
if not iswhite(c) and token.type == TOKEN_SQOPEN:
npos = token.pos
node = Node(-1)
if self.tokenizer.peek().type == TOKEN_COLON:
self.tokenizer.get()
node = Node(NODE_SLICE)
node.pos = npos
node.left = left
node.rlist = [NIL, NIL]
token = self.tokenizer.peek()
if token.type != TOKEN_SQCLOSE:
node.rlist[1] = self.parse_expr1()
token = self.tokenizer.get()
if token.type != TOKEN_SQCLOSE:
raise VimLParserException(Err(viml_printf("unexpected token: %s", token.value), token.pos))
else:
right = self.parse_expr1()
if self.tokenizer.peek().type == TOKEN_COLON:
self.tokenizer.get()
node = Node(NODE_SLICE)
node.pos = npos
node.left = left
node.rlist = [right, NIL]
token = self.tokenizer.peek()
if token.type != TOKEN_SQCLOSE:
node.rlist[1] = self.parse_expr1()
token = self.tokenizer.get()
if token.type != TOKEN_SQCLOSE:
raise VimLParserException(Err(viml_printf("unexpected token: %s", token.value), token.pos))
else:
node = Node(NODE_SUBSCRIPT)
node.pos = npos
node.left = left
node.right = right
token = self.tokenizer.get()
if token.type != TOKEN_SQCLOSE:
raise VimLParserException(Err(viml_printf("unexpected token: %s", token.value), token.pos))
left = node
del node
elif not iswhite(c) and token.type == TOKEN_DOT:
node = self.parse_dot(token, left)
if node is NIL:
self.reader.seek_set(pos)
break
left = node
del node
else:
self.reader.seek_set(pos)
break
return left
# expr9: &option
# variable
# var{ria}ble
# $VAR
# @r
def parse_lv9(self):
pos = self.reader.tell()
token = self.tokenizer.get()
node = Node(-1)
if token.type == TOKEN_COPEN:
self.reader.seek_set(pos)
node = self.parse_identifier()
elif token.type == TOKEN_OPTION:
node = Node(NODE_OPTION)
node.pos = token.pos
node.value = token.value
elif token.type == TOKEN_IDENTIFIER:
self.reader.seek_set(pos)
node = self.parse_identifier()
elif token.type == TOKEN_LT and viml_equalci(self.reader.peekn(4), "SID>"):
self.reader.seek_set(pos)
node = self.parse_identifier()
elif token.type == TOKEN_ENV:
node = Node(NODE_ENV)
node.pos = token.pos
node.value = token.value
elif token.type == TOKEN_REG:
node = Node(NODE_REG)
node.pos = token.pos
node.pos = token.pos
node.value = token.value
else:
raise VimLParserException(Err(viml_printf("unexpected token: %s", token.value), token.pos))
return node
|
class LvalueParser(ExprParser):
def parse(self):
pass
def parse_lv8(self):
pass
def parse_lv9(self):
pass
| 4 | 0 | 29 | 0 | 29 | 0 | 7 | 0.09 | 1 | 1 | 1 | 0 | 3 | 0 | 3 | 19 | 99 | 3 | 88 | 14 | 84 | 8 | 78 | 14 | 74 | 12 | 1 | 5 | 20 |
144,268 |
Kuniwak/vint
|
Kuniwak_vint/vint/ast/plugin/scope_plugin/redir_assignment_parser.py
|
vint.ast.plugin.scope_plugin.redir_assignment_parser.RedirAssignmentParser
|
class RedirAssignmentParser(object):
""" A class to make redir assignment parseable. """
def process(self, ast):
def enter_handler(node):
node_type = NodeType(node['type'])
if node_type is not NodeType.EXCMD:
return
is_redir_command = node['ea']['cmd'].get('name') == 'redir'
if not is_redir_command:
return
redir_cmd_str = node['str']
is_redir_assignment = '=>' in redir_cmd_str
if not is_redir_assignment:
return
parser = Parser()
redir_content_node = parser.parse_redir(node)
node[REDIR_CONTENT] = redir_content_node
traverse(ast, on_enter=enter_handler)
return ast
|
class RedirAssignmentParser(object):
''' A class to make redir assignment parseable. '''
def process(self, ast):
pass
def enter_handler(node):
pass
| 3 | 1 | 20 | 4 | 16 | 0 | 3 | 0.06 | 1 | 2 | 2 | 0 | 1 | 0 | 1 | 1 | 26 | 7 | 18 | 9 | 15 | 1 | 18 | 9 | 15 | 4 | 1 | 1 | 5 |
144,269 |
Kuniwak/vint
|
Kuniwak_vint/vint/_bundles/vimlparser.py
|
vint._bundles.vimlparser.ExprParser
|
class ExprParser:
def __init__(self, reader):
self.reader = reader
self.tokenizer = ExprTokenizer(reader)
def parse(self):
return self.parse_expr1()
# expr1: expr2 ? expr1 : expr1
def parse_expr1(self):
left = self.parse_expr2()
pos = self.reader.tell()
token = self.tokenizer.get()
if token.type == TOKEN_QUESTION:
node = Node(NODE_TERNARY)
node.pos = token.pos
node.cond = left
node.left = self.parse_expr1()
token = self.tokenizer.get()
if token.type != TOKEN_COLON:
raise VimLParserException(Err(viml_printf("unexpected token: %s", token.value), token.pos))
node.right = self.parse_expr1()
left = node
else:
self.reader.seek_set(pos)
return left
# expr2: expr3 || expr3 ..
def parse_expr2(self):
left = self.parse_expr3()
while TRUE:
pos = self.reader.tell()
token = self.tokenizer.get()
if token.type == TOKEN_OROR:
node = Node(NODE_OR)
node.pos = token.pos
node.left = left
node.right = self.parse_expr3()
left = node
else:
self.reader.seek_set(pos)
break
return left
# expr3: expr4 && expr4
def parse_expr3(self):
left = self.parse_expr4()
while TRUE:
pos = self.reader.tell()
token = self.tokenizer.get()
if token.type == TOKEN_ANDAND:
node = Node(NODE_AND)
node.pos = token.pos
node.left = left
node.right = self.parse_expr4()
left = node
else:
self.reader.seek_set(pos)
break
return left
# expr4: expr5 == expr5
# expr5 != expr5
# expr5 > expr5
# expr5 >= expr5
# expr5 < expr5
# expr5 <= expr5
# expr5 =~ expr5
# expr5 !~ expr5
#
# expr5 ==? expr5
# expr5 ==# expr5
# etc.
#
# expr5 is expr5
# expr5 isnot expr5
def parse_expr4(self):
left = self.parse_expr5()
pos = self.reader.tell()
token = self.tokenizer.get()
if token.type == TOKEN_EQEQ:
node = Node(NODE_EQUAL)
node.pos = token.pos
node.left = left
node.right = self.parse_expr5()
left = node
elif token.type == TOKEN_EQEQCI:
node = Node(NODE_EQUALCI)
node.pos = token.pos
node.left = left
node.right = self.parse_expr5()
left = node
elif token.type == TOKEN_EQEQCS:
node = Node(NODE_EQUALCS)
node.pos = token.pos
node.left = left
node.right = self.parse_expr5()
left = node
elif token.type == TOKEN_NEQ:
node = Node(NODE_NEQUAL)
node.pos = token.pos
node.left = left
node.right = self.parse_expr5()
left = node
elif token.type == TOKEN_NEQCI:
node = Node(NODE_NEQUALCI)
node.pos = token.pos
node.left = left
node.right = self.parse_expr5()
left = node
elif token.type == TOKEN_NEQCS:
node = Node(NODE_NEQUALCS)
node.pos = token.pos
node.left = left
node.right = self.parse_expr5()
left = node
elif token.type == TOKEN_GT:
node = Node(NODE_GREATER)
node.pos = token.pos
node.left = left
node.right = self.parse_expr5()
left = node
elif token.type == TOKEN_GTCI:
node = Node(NODE_GREATERCI)
node.pos = token.pos
node.left = left
node.right = self.parse_expr5()
left = node
elif token.type == TOKEN_GTCS:
node = Node(NODE_GREATERCS)
node.pos = token.pos
node.left = left
node.right = self.parse_expr5()
left = node
elif token.type == TOKEN_GTEQ:
node = Node(NODE_GEQUAL)
node.pos = token.pos
node.left = left
node.right = self.parse_expr5()
left = node
elif token.type == TOKEN_GTEQCI:
node = Node(NODE_GEQUALCI)
node.pos = token.pos
node.left = left
node.right = self.parse_expr5()
left = node
elif token.type == TOKEN_GTEQCS:
node = Node(NODE_GEQUALCS)
node.pos = token.pos
node.left = left
node.right = self.parse_expr5()
left = node
elif token.type == TOKEN_LT:
node = Node(NODE_SMALLER)
node.pos = token.pos
node.left = left
node.right = self.parse_expr5()
left = node
elif token.type == TOKEN_LTCI:
node = Node(NODE_SMALLERCI)
node.pos = token.pos
node.left = left
node.right = self.parse_expr5()
left = node
elif token.type == TOKEN_LTCS:
node = Node(NODE_SMALLERCS)
node.pos = token.pos
node.left = left
node.right = self.parse_expr5()
left = node
elif token.type == TOKEN_LTEQ:
node = Node(NODE_SEQUAL)
node.pos = token.pos
node.left = left
node.right = self.parse_expr5()
left = node
elif token.type == TOKEN_LTEQCI:
node = Node(NODE_SEQUALCI)
node.pos = token.pos
node.left = left
node.right = self.parse_expr5()
left = node
elif token.type == TOKEN_LTEQCS:
node = Node(NODE_SEQUALCS)
node.pos = token.pos
node.left = left
node.right = self.parse_expr5()
left = node
elif token.type == TOKEN_MATCH:
node = Node(NODE_MATCH)
node.pos = token.pos
node.left = left
node.right = self.parse_expr5()
left = node
elif token.type == TOKEN_MATCHCI:
node = Node(NODE_MATCHCI)
node.pos = token.pos
node.left = left
node.right = self.parse_expr5()
left = node
elif token.type == TOKEN_MATCHCS:
node = Node(NODE_MATCHCS)
node.pos = token.pos
node.left = left
node.right = self.parse_expr5()
left = node
elif token.type == TOKEN_NOMATCH:
node = Node(NODE_NOMATCH)
node.pos = token.pos
node.left = left
node.right = self.parse_expr5()
left = node
elif token.type == TOKEN_NOMATCHCI:
node = Node(NODE_NOMATCHCI)
node.pos = token.pos
node.left = left
node.right = self.parse_expr5()
left = node
elif token.type == TOKEN_NOMATCHCS:
node = Node(NODE_NOMATCHCS)
node.pos = token.pos
node.left = left
node.right = self.parse_expr5()
left = node
elif token.type == TOKEN_IS:
node = Node(NODE_IS)
node.pos = token.pos
node.left = left
node.right = self.parse_expr5()
left = node
elif token.type == TOKEN_ISCI:
node = Node(NODE_ISCI)
node.pos = token.pos
node.left = left
node.right = self.parse_expr5()
left = node
elif token.type == TOKEN_ISCS:
node = Node(NODE_ISCS)
node.pos = token.pos
node.left = left
node.right = self.parse_expr5()
left = node
elif token.type == TOKEN_ISNOT:
node = Node(NODE_ISNOT)
node.pos = token.pos
node.left = left
node.right = self.parse_expr5()
left = node
elif token.type == TOKEN_ISNOTCI:
node = Node(NODE_ISNOTCI)
node.pos = token.pos
node.left = left
node.right = self.parse_expr5()
left = node
elif token.type == TOKEN_ISNOTCS:
node = Node(NODE_ISNOTCS)
node.pos = token.pos
node.left = left
node.right = self.parse_expr5()
left = node
else:
self.reader.seek_set(pos)
return left
# expr5: expr6 + expr6 ..
# expr6 - expr6 ..
# expr6 . expr6 ..
# expr6 .. expr6 ..
def parse_expr5(self):
left = self.parse_expr6()
while TRUE:
pos = self.reader.tell()
token = self.tokenizer.get()
if token.type == TOKEN_PLUS:
node = Node(NODE_ADD)
node.pos = token.pos
node.left = left
node.right = self.parse_expr6()
left = node
elif token.type == TOKEN_MINUS:
node = Node(NODE_SUBTRACT)
node.pos = token.pos
node.left = left
node.right = self.parse_expr6()
left = node
elif token.type == TOKEN_DOTDOT:
# TODO check scriptversion?
node = Node(NODE_CONCAT)
node.pos = token.pos
node.left = left
node.right = self.parse_expr6()
left = node
elif token.type == TOKEN_DOT:
# TODO check scriptversion?
node = Node(NODE_CONCAT)
node.pos = token.pos
node.left = left
node.right = self.parse_expr6()
left = node
else:
self.reader.seek_set(pos)
break
return left
# expr6: expr7 * expr7 ..
# expr7 / expr7 ..
# expr7 % expr7 ..
def parse_expr6(self):
left = self.parse_expr7()
while TRUE:
pos = self.reader.tell()
token = self.tokenizer.get()
if token.type == TOKEN_STAR:
node = Node(NODE_MULTIPLY)
node.pos = token.pos
node.left = left
node.right = self.parse_expr7()
left = node
elif token.type == TOKEN_SLASH:
node = Node(NODE_DIVIDE)
node.pos = token.pos
node.left = left
node.right = self.parse_expr7()
left = node
elif token.type == TOKEN_PERCENT:
node = Node(NODE_REMAINDER)
node.pos = token.pos
node.left = left
node.right = self.parse_expr7()
left = node
else:
self.reader.seek_set(pos)
break
return left
# expr7: ! expr7
# - expr7
# + expr7
def parse_expr7(self):
pos = self.reader.tell()
token = self.tokenizer.get()
if token.type == TOKEN_NOT:
node = Node(NODE_NOT)
node.pos = token.pos
node.left = self.parse_expr7()
return node
elif token.type == TOKEN_MINUS:
node = Node(NODE_MINUS)
node.pos = token.pos
node.left = self.parse_expr7()
return node
elif token.type == TOKEN_PLUS:
node = Node(NODE_PLUS)
node.pos = token.pos
node.left = self.parse_expr7()
return node
else:
self.reader.seek_set(pos)
node = self.parse_expr8()
return node
# expr8: expr8[expr1]
# expr8[expr1 : expr1]
# expr8.name
# expr8->name(expr1, ...)
# expr8->s:user_func(expr1, ...)
# expr8->{lambda}(expr1, ...)
# expr8(expr1, ...)
def parse_expr8(self):
left = self.parse_expr9()
while TRUE:
pos = self.reader.tell()
c = self.reader.peek()
token = self.tokenizer.get()
if not iswhite(c) and token.type == TOKEN_SQOPEN:
npos = token.pos
if self.tokenizer.peek().type == TOKEN_COLON:
self.tokenizer.get()
node = Node(NODE_SLICE)
node.pos = npos
node.left = left
node.rlist = [NIL, NIL]
token = self.tokenizer.peek()
if token.type != TOKEN_SQCLOSE:
node.rlist[1] = self.parse_expr1()
token = self.tokenizer.get()
if token.type != TOKEN_SQCLOSE:
raise VimLParserException(Err(viml_printf("unexpected token: %s", token.value), token.pos))
left = node
else:
right = self.parse_expr1()
if self.tokenizer.peek().type == TOKEN_COLON:
self.tokenizer.get()
node = Node(NODE_SLICE)
node.pos = npos
node.left = left
node.rlist = [right, NIL]
token = self.tokenizer.peek()
if token.type != TOKEN_SQCLOSE:
node.rlist[1] = self.parse_expr1()
token = self.tokenizer.get()
if token.type != TOKEN_SQCLOSE:
raise VimLParserException(Err(viml_printf("unexpected token: %s", token.value), token.pos))
left = node
else:
node = Node(NODE_SUBSCRIPT)
node.pos = npos
node.left = left
node.right = right
token = self.tokenizer.get()
if token.type != TOKEN_SQCLOSE:
raise VimLParserException(Err(viml_printf("unexpected token: %s", token.value), token.pos))
left = node
del node
elif token.type == TOKEN_ARROW:
funcname_or_lambda = self.parse_expr9()
token = self.tokenizer.get()
if token.type != TOKEN_POPEN:
raise VimLParserException(Err("E107: Missing parentheses: lambda", token.pos))
right = Node(NODE_CALL)
right.pos = token.pos
right.left = funcname_or_lambda
right.rlist = self.parse_rlist()
node = Node(NODE_METHOD)
node.pos = token.pos
node.left = left
node.right = right
left = node
del node
elif token.type == TOKEN_POPEN:
node = Node(NODE_CALL)
node.pos = token.pos
node.left = left
node.rlist = self.parse_rlist()
left = node
del node
elif not iswhite(c) and token.type == TOKEN_DOT:
# TODO check scriptversion?
node = self.parse_dot(token, left)
if node is NIL:
self.reader.seek_set(pos)
break
left = node
del node
else:
self.reader.seek_set(pos)
break
return left
def parse_rlist(self):
rlist = []
token = self.tokenizer.peek()
if self.tokenizer.peek().type == TOKEN_PCLOSE:
self.tokenizer.get()
else:
while TRUE:
viml_add(rlist, self.parse_expr1())
token = self.tokenizer.get()
if token.type == TOKEN_COMMA:
# XXX: Vim allows foo(a, b, ). Lint should warn it.
if self.tokenizer.peek().type == TOKEN_PCLOSE:
self.tokenizer.get()
break
elif token.type == TOKEN_PCLOSE:
break
else:
raise VimLParserException(Err(viml_printf("unexpected token: %s", token.value), token.pos))
if viml_len(rlist) > MAX_FUNC_ARGS:
# TODO: funcname E740: Too many arguments for function: %s
raise VimLParserException(Err("E740: Too many arguments for function", token.pos))
return rlist
# expr9: number
# "string"
# 'string'
# [expr1, ...]
# {expr1: expr1, ...}
# #{literal_key1: expr1, ...}
# {args -> expr1}
# &option
# (expr1)
# variable
# var{ria}ble
# $VAR
# @r
# function(expr1, ...)
# func{ti}on(expr1, ...)
def parse_expr9(self):
pos = self.reader.tell()
token = self.tokenizer.get()
node = Node(-1)
if token.type == TOKEN_NUMBER:
node = Node(NODE_NUMBER)
node.pos = token.pos
node.value = token.value
elif token.type == TOKEN_BLOB:
node = Node(NODE_BLOB)
node.pos = token.pos
node.value = token.value
elif token.type == TOKEN_DQUOTE:
self.reader.seek_set(pos)
node = Node(NODE_STRING)
node.pos = token.pos
node.value = "\"" + self.tokenizer.get_dstring() + "\""
elif token.type == TOKEN_SQUOTE:
self.reader.seek_set(pos)
node = Node(NODE_STRING)
node.pos = token.pos
node.value = "'" + self.tokenizer.get_sstring() + "'"
elif token.type == TOKEN_SQOPEN:
node = Node(NODE_LIST)
node.pos = token.pos
node.value = []
token = self.tokenizer.peek()
if token.type == TOKEN_SQCLOSE:
self.tokenizer.get()
else:
while TRUE:
viml_add(node.value, self.parse_expr1())
token = self.tokenizer.peek()
if token.type == TOKEN_COMMA:
self.tokenizer.get()
if self.tokenizer.peek().type == TOKEN_SQCLOSE:
self.tokenizer.get()
break
elif token.type == TOKEN_SQCLOSE:
self.tokenizer.get()
break
else:
raise VimLParserException(Err(viml_printf("unexpected token: %s", token.value), token.pos))
elif token.type == TOKEN_COPEN or token.type == TOKEN_LITCOPEN:
is_litdict = token.type == TOKEN_LITCOPEN
savepos = self.reader.tell()
nodepos = token.pos
token = self.tokenizer.get()
lambda_ = token.type == TOKEN_ARROW
if not lambda_ and not (token.type == TOKEN_SQUOTE or token.type == TOKEN_DQUOTE):
# if the token type is stirng, we cannot peek next token and we can
# assume it's not lambda.
token2 = self.tokenizer.peek()
lambda_ = token2.type == TOKEN_ARROW or token2.type == TOKEN_COMMA
# fallback to dict or {expr} if true
fallback = FALSE
if lambda_:
# lambda {token,...} {->...} {token->...}
node = Node(NODE_LAMBDA)
node.pos = nodepos
node.rlist = []
named = AttributeDict({})
while TRUE:
if token.type == TOKEN_ARROW:
break
elif token.type == TOKEN_IDENTIFIER:
if not isargname(token.value):
raise VimLParserException(Err(viml_printf("E125: Illegal argument: %s", token.value), token.pos))
elif viml_has_key(named, token.value):
raise VimLParserException(Err(viml_printf("E853: Duplicate argument name: %s", token.value), token.pos))
named[token.value] = 1
varnode = Node(NODE_IDENTIFIER)
varnode.pos = token.pos
varnode.value = token.value
# XXX: Vim doesn't skip white space before comma. {a ,b -> ...} => E475
if iswhite(self.reader.p(0)) and self.tokenizer.peek().type == TOKEN_COMMA:
raise VimLParserException(Err("E475: Invalid argument: White space is not allowed before comma", self.reader.getpos()))
token = self.tokenizer.get()
viml_add(node.rlist, varnode)
if token.type == TOKEN_COMMA:
# XXX: Vim allows last comma. {a, b, -> ...} => OK
token = self.tokenizer.peek()
if token.type == TOKEN_ARROW:
self.tokenizer.get()
break
elif token.type == TOKEN_ARROW:
break
else:
raise VimLParserException(Err(viml_printf("unexpected token: %s, type: %d", token.value, token.type), token.pos))
elif token.type == TOKEN_DOTDOTDOT:
varnode = Node(NODE_IDENTIFIER)
varnode.pos = token.pos
varnode.value = token.value
viml_add(node.rlist, varnode)
token = self.tokenizer.peek()
if token.type == TOKEN_ARROW:
self.tokenizer.get()
break
else:
raise VimLParserException(Err(viml_printf("unexpected token: %s", token.value), token.pos))
else:
fallback = TRUE
break
token = self.tokenizer.get()
if not fallback:
node.left = self.parse_expr1()
token = self.tokenizer.get()
if token.type != TOKEN_CCLOSE:
raise VimLParserException(Err(viml_printf("unexpected token: %s", token.value), token.pos))
return node
# dict
node = Node(NODE_DICT)
node.pos = nodepos
node.value = []
self.reader.seek_set(savepos)
token = self.tokenizer.peek()
if token.type == TOKEN_CCLOSE:
self.tokenizer.get()
return node
while 1:
key = self.tokenizer.parse_dict_literal_key() if is_litdict else self.parse_expr1()
token = self.tokenizer.get()
if token.type == TOKEN_CCLOSE:
if not viml_empty(node.value):
raise VimLParserException(Err(viml_printf("unexpected token: %s", token.value), token.pos))
self.reader.seek_set(pos)
node = self.parse_identifier()
break
if token.type != TOKEN_COLON:
raise VimLParserException(Err(viml_printf("unexpected token: %s", token.value), token.pos))
val = self.parse_expr1()
viml_add(node.value, [key, val])
token = self.tokenizer.get()
if token.type == TOKEN_COMMA:
if self.tokenizer.peek().type == TOKEN_CCLOSE:
self.tokenizer.get()
break
elif token.type == TOKEN_CCLOSE:
break
else:
raise VimLParserException(Err(viml_printf("unexpected token: %s", token.value), token.pos))
return node
elif token.type == TOKEN_POPEN:
node = self.parse_expr1()
token = self.tokenizer.get()
if token.type != TOKEN_PCLOSE:
raise VimLParserException(Err(viml_printf("unexpected token: %s", token.value), token.pos))
elif token.type == TOKEN_OPTION:
node = Node(NODE_OPTION)
node.pos = token.pos
node.value = token.value
elif token.type == TOKEN_IDENTIFIER:
self.reader.seek_set(pos)
node = self.parse_identifier()
elif FALSE and (token.type == TOKEN_COLON or token.type == TOKEN_SHARP):
# XXX: no parse error but invalid expression
self.reader.seek_set(pos)
node = self.parse_identifier()
elif token.type == TOKEN_LT and viml_equalci(self.reader.peekn(4), "SID>"):
self.reader.seek_set(pos)
node = self.parse_identifier()
elif token.type == TOKEN_IS or token.type == TOKEN_ISCS or token.type == TOKEN_ISNOT or token.type == TOKEN_ISNOTCS:
self.reader.seek_set(pos)
node = self.parse_identifier()
elif token.type == TOKEN_ENV:
node = Node(NODE_ENV)
node.pos = token.pos
node.value = token.value
elif token.type == TOKEN_REG:
node = Node(NODE_REG)
node.pos = token.pos
node.value = token.value
else:
raise VimLParserException(Err(viml_printf("unexpected token: %s", token.value), token.pos))
return node
# SUBSCRIPT or CONCAT
# dict "." [0-9A-Za-z_]+ => (subscript dict key)
# str "." expr6 => (concat str expr6)
def parse_dot(self, token, left):
if left.type != NODE_IDENTIFIER and left.type != NODE_CURLYNAME and left.type != NODE_DICT and left.type != NODE_SUBSCRIPT and left.type != NODE_CALL and left.type != NODE_DOT:
return NIL
if not iswordc(self.reader.p(0)):
return NIL
pos = self.reader.getpos()
name = self.reader.read_word()
if isnamec(self.reader.p(0)):
# XXX: foo is str => ok, foo is obj => invalid expression
# foo.s:bar or foo.bar#baz
return NIL
node = Node(NODE_DOT)
node.pos = token.pos
node.left = left
node.right = Node(NODE_IDENTIFIER)
node.right.pos = pos
node.right.value = name
return node
# CONCAT
# str ".." expr6 => (concat str expr6)
def parse_concat(self, token, left):
if left.type != NODE_IDENTIFIER and left.type != NODE_CURLYNAME and left.type != NODE_DICT and left.type != NODE_SUBSCRIPT and left.type != NODE_CALL and left.type != NODE_DOT:
return NIL
if not iswordc(self.reader.p(0)):
return NIL
pos = self.reader.getpos()
name = self.reader.read_word()
if isnamec(self.reader.p(0)):
# XXX: foo is str => ok, foo is obj => invalid expression
# foo.s:bar or foo.bar#baz
return NIL
node = Node(NODE_CONCAT)
node.pos = token.pos
node.left = left
node.right = Node(NODE_IDENTIFIER)
node.right.pos = pos
node.right.value = name
return node
def parse_identifier(self):
self.reader.skip_white()
npos = self.reader.getpos()
curly_parts = self.parse_curly_parts()
if viml_len(curly_parts) == 1 and curly_parts[0].type == NODE_CURLYNAMEPART:
node = Node(NODE_IDENTIFIER)
node.pos = npos
node.value = curly_parts[0].value
return node
else:
node = Node(NODE_CURLYNAME)
node.pos = npos
node.value = curly_parts
return node
def parse_curly_parts(self):
curly_parts = []
c = self.reader.peek()
pos = self.reader.getpos()
if c == "<" and viml_equalci(self.reader.peekn(5), "<SID>"):
name = self.reader.getn(5)
node = Node(NODE_CURLYNAMEPART)
node.curly = FALSE
# Keep backword compatibility for the curly attribute
node.pos = pos
node.value = name
viml_add(curly_parts, node)
while TRUE:
c = self.reader.peek()
if isnamec(c):
pos = self.reader.getpos()
name = self.reader.read_name()
node = Node(NODE_CURLYNAMEPART)
node.curly = FALSE
# Keep backword compatibility for the curly attribute
node.pos = pos
node.value = name
viml_add(curly_parts, node)
elif c == "{":
self.reader.get()
pos = self.reader.getpos()
node = Node(NODE_CURLYNAMEEXPR)
node.curly = TRUE
# Keep backword compatibility for the curly attribute
node.pos = pos
node.value = self.parse_expr1()
viml_add(curly_parts, node)
self.reader.skip_white()
c = self.reader.p(0)
if c != "}":
raise VimLParserException(Err(viml_printf("unexpected token: %s", c), self.reader.getpos()))
self.reader.seek_cur(1)
else:
break
return curly_parts
|
class ExprParser:
def __init__(self, reader):
pass
def parse(self):
pass
def parse_expr1(self):
pass
def parse_expr2(self):
pass
def parse_expr3(self):
pass
def parse_expr4(self):
pass
def parse_expr5(self):
pass
def parse_expr6(self):
pass
def parse_expr7(self):
pass
def parse_expr8(self):
pass
def parse_rlist(self):
pass
def parse_expr9(self):
pass
def parse_dot(self, token, left):
pass
def parse_concat(self, token, left):
pass
def parse_identifier(self):
pass
def parse_curly_parts(self):
pass
| 17 | 0 | 43 | 0 | 42 | 1 | 9 | 0.11 | 0 | 3 | 3 | 1 | 16 | 2 | 16 | 16 | 762 | 16 | 671 | 83 | 654 | 75 | 590 | 83 | 573 | 45 | 0 | 6 | 140 |
144,270 |
Kuniwak/vint
|
Kuniwak_vint/vint/_bundles/vimlparser.py
|
vint._bundles.vimlparser.ExprTokenizer
|
class ExprTokenizer:
def __init__(self, reader):
self.reader = reader
self.cache = AttributeDict({})
def token(self, type, value, pos):
return AttributeDict({"type": type, "value": value, "pos": pos})
def peek(self):
pos = self.reader.tell()
r = self.get()
self.reader.seek_set(pos)
return r
def get(self):
# FIXME: remove dirty hack
if viml_has_key(self.cache, self.reader.tell()):
x = self.cache[self.reader.tell()]
self.reader.seek_set(x[0])
return x[1]
pos = self.reader.tell()
self.reader.skip_white()
r = self.get2()
self.cache[pos] = [self.reader.tell(), r]
return r
def get2(self):
r = self.reader
pos = r.getpos()
c = r.peek()
if c == "<EOF>":
return self.token(TOKEN_EOF, c, pos)
elif c == "<EOL>":
r.seek_cur(1)
return self.token(TOKEN_EOL, c, pos)
elif iswhite(c):
s = r.read_white()
return self.token(TOKEN_SPACE, s, pos)
elif c == "0" and (r.p(1) == "X" or r.p(1) == "x") and isxdigit(r.p(2)):
s = r.getn(3)
s += r.read_xdigit()
return self.token(TOKEN_NUMBER, s, pos)
elif c == "0" and (r.p(1) == "B" or r.p(1) == "b") and (r.p(2) == "0" or r.p(2) == "1"):
s = r.getn(3)
s += r.read_bdigit()
return self.token(TOKEN_NUMBER, s, pos)
elif c == "0" and (r.p(1) == "Z" or r.p(1) == "z") and r.p(2) != ".":
s = r.getn(2)
s += r.read_blob()
return self.token(TOKEN_BLOB, s, pos)
elif isdigit(c):
s = r.read_digit()
if r.p(0) == "." and isdigit(r.p(1)):
s += r.getn(1)
s += r.read_digit()
if (r.p(0) == "E" or r.p(0) == "e") and (isdigit(r.p(1)) or (r.p(1) == "-" or r.p(1) == "+") and isdigit(r.p(2))):
s += r.getn(2)
s += r.read_digit()
return self.token(TOKEN_NUMBER, s, pos)
elif c == "i" and r.p(1) == "s" and not isidc(r.p(2)):
if r.p(2) == "?":
r.seek_cur(3)
return self.token(TOKEN_ISCI, "is?", pos)
elif r.p(2) == "#":
r.seek_cur(3)
return self.token(TOKEN_ISCS, "is#", pos)
else:
r.seek_cur(2)
return self.token(TOKEN_IS, "is", pos)
elif c == "i" and r.p(1) == "s" and r.p(2) == "n" and r.p(3) == "o" and r.p(4) == "t" and not isidc(r.p(5)):
if r.p(5) == "?":
r.seek_cur(6)
return self.token(TOKEN_ISNOTCI, "isnot?", pos)
elif r.p(5) == "#":
r.seek_cur(6)
return self.token(TOKEN_ISNOTCS, "isnot#", pos)
else:
r.seek_cur(5)
return self.token(TOKEN_ISNOT, "isnot", pos)
elif isnamec1(c):
s = r.read_name()
return self.token(TOKEN_IDENTIFIER, s, pos)
elif c == "|" and r.p(1) == "|":
r.seek_cur(2)
return self.token(TOKEN_OROR, "||", pos)
elif c == "&" and r.p(1) == "&":
r.seek_cur(2)
return self.token(TOKEN_ANDAND, "&&", pos)
elif c == "=" and r.p(1) == "=":
if r.p(2) == "?":
r.seek_cur(3)
return self.token(TOKEN_EQEQCI, "==?", pos)
elif r.p(2) == "#":
r.seek_cur(3)
return self.token(TOKEN_EQEQCS, "==#", pos)
else:
r.seek_cur(2)
return self.token(TOKEN_EQEQ, "==", pos)
elif c == "!" and r.p(1) == "=":
if r.p(2) == "?":
r.seek_cur(3)
return self.token(TOKEN_NEQCI, "!=?", pos)
elif r.p(2) == "#":
r.seek_cur(3)
return self.token(TOKEN_NEQCS, "!=#", pos)
else:
r.seek_cur(2)
return self.token(TOKEN_NEQ, "!=", pos)
elif c == ">" and r.p(1) == "=":
if r.p(2) == "?":
r.seek_cur(3)
return self.token(TOKEN_GTEQCI, ">=?", pos)
elif r.p(2) == "#":
r.seek_cur(3)
return self.token(TOKEN_GTEQCS, ">=#", pos)
else:
r.seek_cur(2)
return self.token(TOKEN_GTEQ, ">=", pos)
elif c == "<" and r.p(1) == "=":
if r.p(2) == "?":
r.seek_cur(3)
return self.token(TOKEN_LTEQCI, "<=?", pos)
elif r.p(2) == "#":
r.seek_cur(3)
return self.token(TOKEN_LTEQCS, "<=#", pos)
else:
r.seek_cur(2)
return self.token(TOKEN_LTEQ, "<=", pos)
elif c == "=" and r.p(1) == "~":
if r.p(2) == "?":
r.seek_cur(3)
return self.token(TOKEN_MATCHCI, "=~?", pos)
elif r.p(2) == "#":
r.seek_cur(3)
return self.token(TOKEN_MATCHCS, "=~#", pos)
else:
r.seek_cur(2)
return self.token(TOKEN_MATCH, "=~", pos)
elif c == "!" and r.p(1) == "~":
if r.p(2) == "?":
r.seek_cur(3)
return self.token(TOKEN_NOMATCHCI, "!~?", pos)
elif r.p(2) == "#":
r.seek_cur(3)
return self.token(TOKEN_NOMATCHCS, "!~#", pos)
else:
r.seek_cur(2)
return self.token(TOKEN_NOMATCH, "!~", pos)
elif c == ">":
if r.p(1) == "?":
r.seek_cur(2)
return self.token(TOKEN_GTCI, ">?", pos)
elif r.p(1) == "#":
r.seek_cur(2)
return self.token(TOKEN_GTCS, ">#", pos)
else:
r.seek_cur(1)
return self.token(TOKEN_GT, ">", pos)
elif c == "<":
if r.p(1) == "?":
r.seek_cur(2)
return self.token(TOKEN_LTCI, "<?", pos)
elif r.p(1) == "#":
r.seek_cur(2)
return self.token(TOKEN_LTCS, "<#", pos)
else:
r.seek_cur(1)
return self.token(TOKEN_LT, "<", pos)
elif c == "+":
r.seek_cur(1)
return self.token(TOKEN_PLUS, "+", pos)
elif c == "-":
if r.p(1) == ">":
r.seek_cur(2)
return self.token(TOKEN_ARROW, "->", pos)
else:
r.seek_cur(1)
return self.token(TOKEN_MINUS, "-", pos)
elif c == ".":
if r.p(1) == "." and r.p(2) == ".":
r.seek_cur(3)
return self.token(TOKEN_DOTDOTDOT, "...", pos)
elif r.p(1) == ".":
r.seek_cur(2)
return self.token(TOKEN_DOTDOT, "..", pos)
# TODO check scriptversion?
else:
r.seek_cur(1)
return self.token(TOKEN_DOT, ".", pos)
# TODO check scriptversion?
elif c == "*":
r.seek_cur(1)
return self.token(TOKEN_STAR, "*", pos)
elif c == "/":
r.seek_cur(1)
return self.token(TOKEN_SLASH, "/", pos)
elif c == "%":
r.seek_cur(1)
return self.token(TOKEN_PERCENT, "%", pos)
elif c == "!":
r.seek_cur(1)
return self.token(TOKEN_NOT, "!", pos)
elif c == "?":
r.seek_cur(1)
return self.token(TOKEN_QUESTION, "?", pos)
elif c == ":":
r.seek_cur(1)
return self.token(TOKEN_COLON, ":", pos)
elif c == "#":
if r.p(1) == "{":
r.seek_cur(2)
return self.token(TOKEN_LITCOPEN, "#{", pos)
else:
r.seek_cur(1)
return self.token(TOKEN_SHARP, "#", pos)
elif c == "(":
r.seek_cur(1)
return self.token(TOKEN_POPEN, "(", pos)
elif c == ")":
r.seek_cur(1)
return self.token(TOKEN_PCLOSE, ")", pos)
elif c == "[":
r.seek_cur(1)
return self.token(TOKEN_SQOPEN, "[", pos)
elif c == "]":
r.seek_cur(1)
return self.token(TOKEN_SQCLOSE, "]", pos)
elif c == "{":
r.seek_cur(1)
return self.token(TOKEN_COPEN, "{", pos)
elif c == "}":
r.seek_cur(1)
return self.token(TOKEN_CCLOSE, "}", pos)
elif c == ",":
r.seek_cur(1)
return self.token(TOKEN_COMMA, ",", pos)
elif c == "'":
r.seek_cur(1)
return self.token(TOKEN_SQUOTE, "'", pos)
elif c == "\"":
r.seek_cur(1)
return self.token(TOKEN_DQUOTE, "\"", pos)
elif c == "$":
s = r.getn(1)
s += r.read_word()
return self.token(TOKEN_ENV, s, pos)
elif c == "@":
# @<EOL> is treated as @"
return self.token(TOKEN_REG, r.getn(2), pos)
elif c == "&":
s = ""
if (r.p(1) == "g" or r.p(1) == "l") and r.p(2) == ":":
s = r.getn(3) + r.read_word()
else:
s = r.getn(1) + r.read_word()
return self.token(TOKEN_OPTION, s, pos)
elif c == "=":
r.seek_cur(1)
return self.token(TOKEN_EQ, "=", pos)
elif c == "|":
r.seek_cur(1)
return self.token(TOKEN_OR, "|", pos)
elif c == ";":
r.seek_cur(1)
return self.token(TOKEN_SEMICOLON, ";", pos)
elif c == "`":
r.seek_cur(1)
return self.token(TOKEN_BACKTICK, "`", pos)
else:
raise VimLParserException(Err(viml_printf("unexpected character: %s", c), self.reader.getpos()))
def get_sstring(self):
self.reader.skip_white()
c = self.reader.p(0)
if c != "'":
raise VimLParserException(Err(viml_printf("unexpected character: %s", c), self.reader.getpos()))
self.reader.seek_cur(1)
s = ""
while TRUE:
c = self.reader.p(0)
if c == "<EOF>" or c == "<EOL>":
raise VimLParserException(Err("unexpected EOL", self.reader.getpos()))
elif c == "'":
self.reader.seek_cur(1)
if self.reader.p(0) == "'":
self.reader.seek_cur(1)
s += "''"
else:
break
else:
self.reader.seek_cur(1)
s += c
return s
def get_dstring(self):
self.reader.skip_white()
c = self.reader.p(0)
if c != "\"":
raise VimLParserException(Err(viml_printf("unexpected character: %s", c), self.reader.getpos()))
self.reader.seek_cur(1)
s = ""
while TRUE:
c = self.reader.p(0)
if c == "<EOF>" or c == "<EOL>":
raise VimLParserException(Err("unexpectd EOL", self.reader.getpos()))
elif c == "\"":
self.reader.seek_cur(1)
break
elif c == "\\":
self.reader.seek_cur(1)
s += c
c = self.reader.p(0)
if c == "<EOF>" or c == "<EOL>":
raise VimLParserException(Err("ExprTokenizer: unexpected EOL", self.reader.getpos()))
self.reader.seek_cur(1)
s += c
else:
self.reader.seek_cur(1)
s += c
return s
def parse_dict_literal_key(self):
self.reader.skip_white()
c = self.reader.peek()
if not isalnum(c) and c != "_" and c != "-":
raise VimLParserException(Err(viml_printf("unexpected character: %s", c), self.reader.getpos()))
node = Node(NODE_STRING)
s = c
self.reader.seek_cur(1)
node.pos = self.reader.getpos()
while TRUE:
c = self.reader.p(0)
if c == "<EOF>" or c == "<EOL>":
raise VimLParserException(Err("unexpectd EOL", self.reader.getpos()))
if not isalnum(c) and c != "_" and c != "-":
break
self.reader.seek_cur(1)
s += c
node.value = "'" + s + "'"
return node
|
class ExprTokenizer:
def __init__(self, reader):
pass
def token(self, type, value, pos):
pass
def peek(self):
pass
def get(self):
pass
def get2(self):
pass
def get_sstring(self):
pass
def get_dstring(self):
pass
def parse_dict_literal_key(self):
pass
| 9 | 0 | 42 | 0 | 41 | 3 | 12 | 0.08 | 0 | 2 | 2 | 0 | 8 | 2 | 8 | 8 | 341 | 8 | 329 | 27 | 320 | 27 | 252 | 27 | 243 | 74 | 0 | 3 | 97 |
144,271 |
Kuniwak/vint
|
Kuniwak_vint/vint/ast/plugin/scope_plugin/scope.py
|
vint.ast.plugin.scope_plugin.scope.Scope
|
class Scope:
def __init__(self, scope_visibility):
# type: (ScopeVisibility) -> None
self.scope_visibility = scope_visibility
self.functions = {} # type: Dict[str, List[VariableDeclaration]]
self.variables = {} # type: Dict[str, List[VariableDeclaration]]
self.child_scopes = [] # type: List[Scope]
# XXX: self.parent is typed as Optional[Scope], so it can be None. But the None has 2 meanings:
# - Parent scope is not attached yet
# - This scope is root scope
# But it makes debugging hard, so self.parent is a debug value until the self.parent is set by other.
self.parent = 'not attached yet'
|
class Scope:
def __init__(self, scope_visibility):
pass
| 2 | 0 | 12 | 1 | 6 | 9 | 1 | 1.29 | 0 | 0 | 0 | 0 | 1 | 5 | 1 | 1 | 13 | 1 | 7 | 7 | 5 | 9 | 7 | 7 | 5 | 1 | 0 | 0 | 1 |
144,272 |
Kuniwak/vint
|
Kuniwak_vint/test/unit/vint/linting/config/test_config_util.py
|
test.unit.vint.linting.config.test_config_util.TestConfigUtil
|
class TestConfigUtil(unittest.TestCase):
def test_get_config_value_when_empty(self):
config_dict = {}
self.assertIsNone(get_config_value(config_dict, ['a']))
def test_get_config_value_when_nested_1_depth(self):
config_dict = {'a': 'A'}
self.assertIs(get_config_value(config_dict, ['a']), 'A')
def test_get_config_value_when_nested_2_depth(self):
config_dict = {'a': {'b': 'B'}}
self.assertIs(get_config_value(config_dict, ['a', 'b']), 'B')
def test_get_config_value_when_target_is_dict(self):
config_dict = {'a': {'b': 'B'}}
self.assertEqual(get_config_value(config_dict, ['a']), {'b': 'B'})
def test_get_config_value_when_target_is_depth_2_unexistent_dict(self):
config_dict = {'a': 'A'}
self.assertEqual(get_config_value(config_dict, ['c', 'b']), None)
def test_get_config_value_when_given_default(self):
config_dict = {'a': 'A'}
self.assertEqual(get_config_value(config_dict, ['c', 'b'], 'DEFAULT'), 'DEFAULT')
def test_get_config_value_when_given_default_but_not_used(self):
config_dict = {'a': 'A'}
self.assertEqual(get_config_value(config_dict, ['a'], 'DEFAULT'), 'A')
|
class TestConfigUtil(unittest.TestCase):
def test_get_config_value_when_empty(self):
pass
def test_get_config_value_when_nested_1_depth(self):
pass
def test_get_config_value_when_nested_2_depth(self):
pass
def test_get_config_value_when_target_is_dict(self):
pass
def test_get_config_value_when_target_is_depth_2_unexistent_dict(self):
pass
def test_get_config_value_when_given_default(self):
pass
def test_get_config_value_when_given_default_but_not_used(self):
pass
| 8 | 0 | 4 | 1 | 3 | 0 | 1 | 0 | 1 | 0 | 0 | 0 | 7 | 0 | 7 | 79 | 41 | 19 | 22 | 15 | 14 | 0 | 22 | 15 | 14 | 1 | 2 | 0 | 7 |
144,273 |
Kuniwak/vint
|
Kuniwak_vint/vint/ast/plugin/scope_plugin/scope.py
|
vint.ast.plugin.scope_plugin.scope.GlobalVariableDeclaration
|
class GlobalVariableDeclaration:
""" An alternate value of variable declarations. It means the variable is defined on global like scope,
but it can not be a concrete VariableDeclaration because Vint can not know whether it is defined as well.
"""
pass
|
class GlobalVariableDeclaration:
''' An alternate value of variable declarations. It means the variable is defined on global like scope,
but it can not be a concrete VariableDeclaration because Vint can not know whether it is defined as well.
'''
| 1 | 1 | 0 | 0 | 0 | 0 | 0 | 1.5 | 0 | 0 | 0 | 0 | 0 | 0 | 0 | 0 | 5 | 0 | 2 | 1 | 1 | 3 | 2 | 1 | 1 | 0 | 0 | 0 | 0 |
144,274 |
Kuniwak/vint
|
Kuniwak_vint/vint/ast/plugin/scope_plugin/scope.py
|
vint.ast.plugin.scope_plugin.scope.ExplicityOfScopeVisibility
|
class ExplicityOfScopeVisibility(enum.Enum):
EXPLICIT = 0
IMPLICIT = 1
IMPLICIT_OR_LAMBDA = 2
# It means implicit but the variable can not have explicit scope prefix.
# For example, function arguments and builtin functions can not have explicit scope prefix.
IMPLICIT_BUT_CONSTRAINED = 3
UNANALYZABLE = 4
# SEE: https://github.com/Kuniwak/vint/pull/136
UNRECOMMENDED_EXPLICIT=5
|
class ExplicityOfScopeVisibility(enum.Enum):
pass
| 1 | 0 | 0 | 0 | 0 | 0 | 0 | 0.43 | 1 | 0 | 0 | 0 | 0 | 0 | 0 | 49 | 11 | 1 | 7 | 7 | 6 | 3 | 7 | 7 | 6 | 0 | 4 | 0 | 0 |
144,275 |
Kuniwak/vint
|
Kuniwak_vint/vint/ast/plugin/scope_plugin/reference_reachability_tester.py
|
vint.ast.plugin.scope_plugin.reference_reachability_tester.ReferenceReachabilityTesterError
|
class ReferenceReachabilityTesterError(Exception):
pass
|
class ReferenceReachabilityTesterError(Exception):
pass
| 1 | 0 | 0 | 0 | 0 | 0 | 0 | 0 | 1 | 0 | 0 | 0 | 0 | 0 | 0 | 10 | 2 | 0 | 2 | 1 | 1 | 0 | 2 | 1 | 1 | 0 | 3 | 0 | 0 |
144,276 |
Kuniwak/vint
|
/Users/umroot/Documents/PhD_works/PhD-Core-Contents/Class-level-dataset-curation/data/git_repos_for_analysis/Kuniwak_vint/vint/linting/config/config_source.py
|
vint.linting.config.config_source.ConfigSource.ConfigError
|
class ConfigError(Exception):
def __init__(self, msg):
self.msg = msg
def __str__(self):
return self.msg
|
class ConfigError(Exception):
def __init__(self, msg):
pass
def __str__(self):
pass
| 3 | 0 | 2 | 0 | 2 | 0 | 1 | 0 | 1 | 0 | 0 | 0 | 2 | 1 | 2 | 12 | 6 | 1 | 5 | 4 | 2 | 0 | 5 | 4 | 2 | 1 | 3 | 0 | 2 |
144,277 |
Kunstmord/datalib
|
Kunstmord_datalib/testset.py
|
testset.TestSet
|
class TestSet(Base):
__tablename__ = 'test set'
id = Column(Integer, primary_key=True)
real_id = Column(String(60))
path = Column(String(120))
features = Column(PickleType)
|
class TestSet(Base):
pass
| 1 | 0 | 0 | 0 | 0 | 0 | 0 | 0 | 1 | 0 | 0 | 0 | 0 | 0 | 0 | 0 | 6 | 0 | 6 | 5 | 5 | 0 | 6 | 5 | 5 | 0 | 1 | 0 | 0 |
144,278 |
Kunstmord/datalib
|
Kunstmord_datalib/trainset.py
|
trainset.TrainSet
|
class TrainSet(Base):
__tablename__ = 'train set'
id = Column(Integer, primary_key=True)
real_id = Column(String(60))
path = Column(String(120))
labels = Column(PickleType)
features = Column(PickleType)
|
class TrainSet(Base):
pass
| 1 | 0 | 0 | 0 | 0 | 0 | 0 | 0 | 1 | 0 | 0 | 0 | 0 | 0 | 0 | 0 | 7 | 0 | 7 | 6 | 6 | 0 | 7 | 6 | 6 | 0 | 1 | 0 | 0 |
144,279 |
Kunstmord/datalib
|
Kunstmord_datalib/src/errors.py
|
src.errors.WrongSize
|
class WrongSize(Exception):
def __init__(self, name):
self.name = name
def __str__(self):
return 'Feature ' + str(self.name) + ' has wrong size, cannot dump to database'
|
class WrongSize(Exception):
def __init__(self, name):
pass
def __str__(self):
pass
| 3 | 0 | 2 | 0 | 2 | 0 | 1 | 0 | 1 | 1 | 0 | 0 | 2 | 1 | 2 | 12 | 6 | 1 | 5 | 4 | 2 | 0 | 5 | 4 | 2 | 1 | 3 | 0 | 2 |
144,280 |
Kunstmord/datalib
|
Kunstmord_datalib/src/errors.py
|
src.errors.EmptyDatabase
|
class EmptyDatabase(Exception):
def __init__(self, path):
self.path = path
def __str__(self):
return 'Database at ' + str(self.path) + ' is empty, run prepopulate() first'
|
class EmptyDatabase(Exception):
def __init__(self, path):
pass
def __str__(self):
pass
| 3 | 0 | 2 | 0 | 2 | 0 | 1 | 0 | 1 | 1 | 0 | 0 | 2 | 1 | 2 | 12 | 6 | 1 | 5 | 4 | 2 | 0 | 5 | 4 | 2 | 1 | 3 | 0 | 2 |
144,281 |
Kunstmord/datalib
|
Kunstmord_datalib/src/errors.py
|
src.errors.InsufficientData
|
class InsufficientData(Exception):
def __init__(self, name, error_type, path=None):
self.name = name
self.error_type = error_type
self.path = path
def __str__(self):
if self.path is None:
return 'No ' + str(self.name) + ' ' + str(self.error_type)
else:
return 'No ' + str(self.name) + ' ' + str(self.error_type) + ' (at ' + str(self.path) + ')'
|
class InsufficientData(Exception):
def __init__(self, name, error_type, path=None):
pass
def __str__(self):
pass
| 3 | 0 | 5 | 0 | 5 | 0 | 2 | 0 | 1 | 1 | 0 | 0 | 2 | 3 | 2 | 12 | 11 | 1 | 10 | 6 | 7 | 0 | 9 | 6 | 6 | 2 | 3 | 1 | 3 |
144,282 |
Kunstmord/datalib
|
Kunstmord_datalib/src/misc.py
|
src.misc.MutableDict
|
class MutableDict(Mutable, dict):
@classmethod
def coerce(cls, key, value):
if not isinstance(value, MutableDict):
if isinstance(value, dict):
return MutableDict(value)
return Mutable.coerce(key, value)
else:
return value
def __delitem__(self, key):
dict.__delitem__(self, key)
self.changed()
def __setitem__(self, key, value):
dict.__setitem__(self, key, value)
self.changed()
def __getstate__(self):
return dict(self)
def __setstate__(self, state):
self.update(state)
|
class MutableDict(Mutable, dict):
@classmethod
def coerce(cls, key, value):
pass
def __delitem__(self, key):
pass
def __setitem__(self, key, value):
pass
def __getstate__(self):
pass
def __setstate__(self, state):
pass
| 7 | 0 | 3 | 0 | 3 | 0 | 1 | 0 | 2 | 0 | 0 | 0 | 4 | 0 | 5 | 32 | 23 | 4 | 19 | 7 | 12 | 0 | 17 | 6 | 11 | 3 | 2 | 2 | 7 |
144,283 |
KushalP/serfclient-py
|
KushalP_serfclient-py/tests/test_result.py
|
tests.test_result.TestSerfResult
|
class TestSerfResult(object):
@pytest.fixture
def head_and_body_result(self):
return result.SerfResult(head=1, body=2)
def test_initialises_to_none(self):
r = result.SerfResult()
assert r.head is None
assert r.body is None
def test_provides_a_pretty_printed_form_for_repl_use(self):
r = result.SerfResult(head={"a": 1}, body=('foo', 'bar'))
assert str(r) == \
"SerfResult<head={'a': 1},body=('foo', 'bar')>"
def test_can_convert_to_list_and_tuple(self, head_and_body_result):
for structure in [list, tuple]:
assert sorted(structure(head_and_body_result)) == [1, 2]
|
class TestSerfResult(object):
@pytest.fixture
def head_and_body_result(self):
pass
def test_initialises_to_none(self):
pass
def test_provides_a_pretty_printed_form_for_repl_use(self):
pass
def test_can_convert_to_list_and_tuple(self, head_and_body_result):
pass
| 6 | 0 | 3 | 0 | 3 | 0 | 1 | 0 | 1 | 4 | 1 | 0 | 4 | 0 | 4 | 4 | 18 | 3 | 15 | 9 | 9 | 0 | 13 | 8 | 8 | 2 | 1 | 1 | 5 |
144,284 |
KushalP/serfclient-py
|
KushalP_serfclient-py/serfclient/connection.py
|
serfclient.connection.SerfConnectionError
|
class SerfConnectionError(Exception):
pass
|
class SerfConnectionError(Exception):
pass
| 1 | 0 | 0 | 0 | 0 | 0 | 0 | 0 | 1 | 0 | 0 | 2 | 0 | 0 | 0 | 10 | 2 | 0 | 2 | 1 | 1 | 0 | 2 | 1 | 1 | 0 | 3 | 0 | 0 |
144,285 |
KushalP/serfclient-py
|
/Users/umroot/Documents/PhD_works/PhD-Core-Contents/Class-level-dataset-curation/data/git_repos_for_analysis/KushalP_serfclient-py/setup.py
|
setup.PyTest
|
class PyTest(TestCommand):
def finalize_options(self):
TestCommand.finalize_options(self)
self.test_args = []
self.test_suite = True
def run_tests(self):
import pytest
errno = pytest.main(self.test_args)
sys.exit(errno)
|
class PyTest(TestCommand):
def finalize_options(self):
pass
def run_tests(self):
pass
| 3 | 0 | 4 | 0 | 4 | 0 | 1 | 0 | 1 | 0 | 0 | 0 | 2 | 2 | 2 | 2 | 10 | 1 | 9 | 7 | 5 | 0 | 9 | 7 | 5 | 1 | 1 | 0 | 2 |
144,286 |
KushalP/serfclient-py
|
KushalP_serfclient-py/serfclient/client.py
|
serfclient.client.SerfClient
|
class SerfClient(object):
def __init__(self, host='localhost', port=7373, rpc_auth=None, timeout=3):
self.host = host
self.port = port
self.timeout = timeout
self.connection = SerfConnection(
host=self.host, port=self.port, timeout=self.timeout)
self.connection.handshake()
if rpc_auth:
self.connection.auth(rpc_auth)
def stream(self, event_types='*'):
if isinstance(event_types, list):
event_types = ','.join(event_types)
return self.connection.call(
'stream', {'Type': event_types}, stream=True)
def event(self, name, payload=None, coalesce=True):
"""
Send an event to the cluster. Can take an optional payload as well,
which will be sent in the form that it's provided.
"""
return self.connection.call(
'event',
{'Name': name, 'Payload': payload, 'Coalesce': coalesce},
expect_body=False)
def members(self, name=None, status=None, tags=None):
"""
Lists members of a Serf cluster, optionally filtered by one or more
filters:
`name` is a string, supporting regex matching on node names.
`status` is a string, supporting regex matching on node status.
`tags` is a dict of tag names and values, supporting regex matching
on values.
"""
filters = {}
if name is not None:
filters['Name'] = name
if status is not None:
filters['Status'] = status
if tags is not None:
filters['Tags'] = tags
if len(filters) == 0:
return self.connection.call('members')
else:
return self.connection.call('members-filtered', filters)
def force_leave(self, name):
"""
Force a node to leave the cluster.
"""
return self.connection.call(
'force-leave',
{"Node": name}, expect_body=False)
def join(self, location):
"""
Join another cluster by provided a list of ip:port locations.
"""
if not isinstance(location, (list, tuple)):
location = [location]
return self.connection.call(
'join',
{"Existing": location, "Replay": False})
def stats(self):
"""
Obtain operator debugging information about the running Serf agent.
"""
return self.connection.call('stats')
def close(self):
"""
Close connection to Serf agent.
"""
if self.connection:
self.connection.close()
self.connection = None
def set_tag(self, tag, value):
"""
Set a tag of a node. Will fire a member update event
"""
return self.connection.call('tags', {"Tags": {tag: value}},
expect_body=False)
def delete_tag(self, tags):
"""
Delete a tag of a node. Will fire a member update event
"""
if not isinstance(tags, (list, tuple)):
tags = [tags]
return self.connection.call('tags', {"DeleteTags": tags},
expect_body=False)
def get_coordinate(self, node):
"""
Get the coordination of a node
"""
return self.connection.call("get-coordinate", {"Node": node})
|
class SerfClient(object):
def __init__(self, host='localhost', port=7373, rpc_auth=None, timeout=3):
pass
def stream(self, event_types='*'):
pass
def event(self, name, payload=None, coalesce=True):
'''
Send an event to the cluster. Can take an optional payload as well,
which will be sent in the form that it's provided.
'''
pass
def members(self, name=None, status=None, tags=None):
'''
Lists members of a Serf cluster, optionally filtered by one or more
filters:
`name` is a string, supporting regex matching on node names.
`status` is a string, supporting regex matching on node status.
`tags` is a dict of tag names and values, supporting regex matching
on values.
'''
pass
def force_leave(self, name):
'''
Force a node to leave the cluster.
'''
pass
def join(self, location):
'''
Join another cluster by provided a list of ip:port locations.
'''
pass
def stats(self):
'''
Obtain operator debugging information about the running Serf agent.
'''
pass
def close(self):
'''
Close connection to Serf agent.
'''
pass
def set_tag(self, tag, value):
'''
Set a tag of a node. Will fire a member update event
'''
pass
def delete_tag(self, tags):
'''
Delete a tag of a node. Will fire a member update event
'''
pass
def get_coordinate(self, node):
'''
Get the coordination of a node
'''
pass
| 12 | 9 | 9 | 1 | 5 | 3 | 2 | 0.57 | 1 | 3 | 1 | 0 | 11 | 4 | 11 | 11 | 107 | 16 | 58 | 17 | 46 | 33 | 46 | 17 | 34 | 5 | 1 | 1 | 20 |
144,287 |
KushalP/serfclient-py
|
KushalP_serfclient-py/serfclient/connection.py
|
serfclient.connection.SerfConnection
|
class SerfConnection(object):
"""
Manages RPC communication to and from a Serf agent.
"""
# Read from the RPC socket in blocks of this many bytes.
# (Typically 4k)
_socket_recv_size = resource.getpagesize()
def __init__(self, host='localhost', port=7373, timeout=3):
self.host = host
self.port = port
self.timeout = timeout
self._socket = None
self._seq = 0
def __repr__(self):
return "%(class)s<counter=%(c)s,host=%(h)s,port=%(p)s,timeout=%(t)s>" \
% {'class': self.__class__.__name__,
'c': self._seq,
'h': self.host,
'p': self.port,
't': self.timeout}
def call(self, command, params=None, expect_body=True, stream=False):
"""
Sends the provided command to Serf for evaluation, with
any parameters as the message body.
"""
if self._socket is None:
raise SerfConnectionError('handshake must be made first')
header = msgpack.packb({"Seq": self._counter(), "Command": command})
if params is not None:
body = msgpack.packb(params)
self._socket.sendall(header + body)
else:
self._socket.sendall(header)
unpacker = msgpack.Unpacker(object_hook=self._decode_addr_key)
def read_from_socket():
try:
buf = self._socket.recv(self._socket_recv_size)
if len(buf) == 0: # Connection was closed.
raise SerfConnectionError("Connection closed by peer")
unpacker.feed(buf)
except socket.timeout:
raise SerfTimeout(
"timeout while waiting for an RPC response. (Have %s so"
"far)", response)
if stream:
def keep_reading_from_stream(init=[]):
sub_response = SerfResult()
while True:
if init is not None:
it = init
init = None
else:
if self._socket is None:
return
read_from_socket()
it = unpacker
for msg in it:
if sub_response.head is None:
sub_response.head = msg
elif sub_response.body is None:
sub_response.body = msg
yield sub_response
sub_response = SerfResult()
mem = []
messages_expected = 1
while messages_expected > 0:
read_from_socket()
# Might have received enough to deserialise one or more
# messages, try to fill out the response object.
for message in unpacker:
mem.append(message)
messages_expected -= 1
# Disable timeout while we are in streaming mode
self._socket.settimeout(None)
response = SerfResult()
response.head = mem.pop()
response.body = keep_reading_from_stream(mem)
else:
# The number of msgpack messages that are expected
# in response to this command.
messages_expected = 2 if expect_body else 1
response = SerfResult()
# Continue reading from the network until the expected number of
# msgpack messages have been received.
while messages_expected > 0:
read_from_socket()
# Might have received enough to deserialise one or more
# messages, try to fill out the response object.
for message in unpacker:
if response.head is None:
response.head = message
elif response.body is None:
response.body = message
else:
raise SerfProtocolError(
"protocol handler got more than 2 messages. "
"Unexpected message is: %s", message)
# Expecting one fewer message now.
messages_expected -= 1
return response
def handshake(self):
"""
Sets up the connection with the Serf agent and does the
initial handshake.
"""
if self._socket is None:
self._socket = self._connect()
return self.call('handshake', {"Version": 1}, expect_body=False)
def auth(self, auth_key):
"""
Performs the initial authentication on connect
"""
if self._socket is None:
self._socket = self._connect()
return self.call('auth', {"AuthKey": auth_key}, expect_body=False)
def _connect(self):
try:
return socket.create_connection(
(self.host, self.port), self.timeout)
except socket.error:
e = sys.exc_info()[1]
raise SerfConnectionError(self._error_message(e))
def _counter(self):
"""
Returns the current value of the iterator and increments it.
"""
current = self._seq
self._seq += 1
return current
def _error_message(self, exception):
return "Error %s connecting %s:%s. %s." % \
(exception.args[0], self.host, self.port, exception.args[1])
def _decode_addr_key(self, obj_dict):
"""
Callback function to handle the decoding of the 'Addr' field.
Serf msgpack 'Addr' as an IPv6 address, and the data needs to be unpack
using socket.inet_ntop().
See: https://github.com/KushalP/serfclient-py/issues/20
:param obj_dict: A dictionary containing the msgpack map.
:return: A dictionary with the correct 'Addr' format.
"""
key = b'Addr'
if key in obj_dict:
try:
# Try to convert a packed IPv6 address.
# Note: Call raises ValueError if address is actually IPv4.
ip_addr = socket.inet_ntop(socket.AF_INET6, obj_dict[key])
# Check if the address is an IPv4 mapped IPv6 address:
# ie. ::ffff:xxx.xxx.xxx.xxx
if ip_addr.startswith('::ffff:'):
ip_addr = ip_addr.lstrip('::ffff:')
obj_dict[key] = ip_addr.encode('utf-8')
except ValueError:
# Try to convert a packed IPv4 address.
ip_addr = socket.inet_ntop(socket.AF_INET, obj_dict[key])
obj_dict[key] = ip_addr.encode('utf-8')
return obj_dict
def close(self):
"""
Close the connection with the Serf agent.
"""
if self._socket:
self._socket.close()
self._socket = None
|
class SerfConnection(object):
'''
Manages RPC communication to and from a Serf agent.
'''
def __init__(self, host='localhost', port=7373, timeout=3):
pass
def __repr__(self):
pass
def call(self, command, params=None, expect_body=True, stream=False):
'''
Sends the provided command to Serf for evaluation, with
any parameters as the message body.
'''
pass
def read_from_socket():
pass
def keep_reading_from_stream(init=[]):
pass
def handshake(self):
'''
Sets up the connection with the Serf agent and does the
initial handshake.
'''
pass
def auth(self, auth_key):
'''
Performs the initial authentication on connect
'''
pass
def _connect(self):
pass
def _counter(self):
'''
Returns the current value of the iterator and increments it.
'''
pass
def _error_message(self, exception):
pass
def _decode_addr_key(self, obj_dict):
'''
Callback function to handle the decoding of the 'Addr' field.
Serf msgpack 'Addr' as an IPv6 address, and the data needs to be unpack
using socket.inet_ntop().
See: https://github.com/KushalP/serfclient-py/issues/20
:param obj_dict: A dictionary containing the msgpack map.
:return: A dictionary with the correct 'Addr' format.
'''
pass
def close(self):
'''
Close the connection with the Serf agent.
'''
pass
| 13 | 7 | 17 | 1 | 12 | 4 | 3 | 0.39 | 1 | 5 | 4 | 0 | 10 | 5 | 10 | 10 | 191 | 27 | 119 | 34 | 106 | 46 | 102 | 34 | 89 | 11 | 1 | 4 | 37 |
144,288 |
KushalP/serfclient-py
|
KushalP_serfclient-py/serfclient/connection.py
|
serfclient.connection.SerfProtocolError
|
class SerfProtocolError(SerfConnectionError):
pass
|
class SerfProtocolError(SerfConnectionError):
pass
| 1 | 0 | 0 | 0 | 0 | 0 | 0 | 0 | 1 | 0 | 0 | 0 | 0 | 0 | 0 | 10 | 2 | 0 | 2 | 1 | 1 | 0 | 2 | 1 | 1 | 0 | 4 | 0 | 0 |
144,289 |
KushalP/serfclient-py
|
KushalP_serfclient-py/serfclient/connection.py
|
serfclient.connection.SerfTimeout
|
class SerfTimeout(SerfConnectionError):
pass
|
class SerfTimeout(SerfConnectionError):
pass
| 1 | 0 | 0 | 0 | 0 | 0 | 0 | 0 | 1 | 0 | 0 | 0 | 0 | 0 | 0 | 10 | 2 | 0 | 2 | 1 | 1 | 0 | 2 | 1 | 1 | 0 | 4 | 0 | 0 |
144,290 |
KushalP/serfclient-py
|
/Users/umroot/Documents/PhD_works/PhD-Core-Contents/Class-level-dataset-curation/data/git_repos_for_analysis/KushalP_serfclient-py/tests/test_client.py
|
tests.test_client.TestSerfClientCommands
|
class TestSerfClientCommands(object):
"""
Common commands for the library
"""
@pytest.yield_fixture
def serf(self):
with closing(client.SerfClient()) as serf:
yield serf
@mock.patch('serfclient.client.SerfConnection')
def test_rpc_auth(self, mock_serf_connection_class):
mock_serf_connection = mock.MagicMock()
mock_serf_connection_class.return_value = mock_serf_connection
with closing(client.SerfClient(rpc_auth='secret')) as serf:
assert serf.connection is not None
mock_serf_connection.auth.assert_called_once_with('secret')
def test_has_a_default_host_and_port(self, serf):
assert serf.host == 'localhost'
assert serf.port == 7373
def test_initialises_a_serf_connection_on_creation(self, serf):
assert serf.connection is not None
def test_set_a_tag(self, serf):
assert serf.set_tag('hello', 'world').head == {b'Error': b'',
b'Seq': 1}
members = serf.members(tags={'hello': 'world'})
assert len(members.body[b'Members']) == 1
def test_delete_a_tag(self, serf):
assert serf.delete_tag('hello').head == {b'Error': b'', b'Seq': 1}
members = serf.members(tags={'hello': 'world'})
assert len(members.body[b'Members']) == 0
def test_sending_a_simple_event(self, serf):
assert serf.event('foo', 'bar').head == {b'Error': b'', b'Seq': 1}
def test_sending_a_non_coalescing_event(self, serf):
assert serf.event('foo', 'bar').head == {b'Error': b'', b'Seq': 1}
def test_event_payload_is_optional(self, serf):
assert serf.event('foo').head == {b'Error': b'', b'Seq': 1}
assert serf.event('bar', coalesce=False).head == \
{b'Error': b'', b'Seq': 2}
def test_force_leaving_of_a_node(self, serf):
assert serf.force_leave('bad-node-name').head == \
{b'Error': b'', b'Seq': 1}
def test_joining_a_non_existent_node(self, serf):
address = '127.0.0.1:23000'
join = serf.join([address])
assert join.head == \
{
b'Error': 'dial tcp {addr}: getsockopt: {reason}'.format(
addr=address,
reason='connection refused'
).encode('utf-8'),
b'Seq': 1
}
assert join.body == {b'Num': 0}
def test_joining_an_existing_node_fails(self, serf):
join = serf.join(['127.0.0.1:7373'])
assert join.head == {b'Error': b'EOF', b'Seq': 1}
assert join.body == {b'Num': 0}
def test_providing_a_single_value_should_put_it_inside_a_list(self, serf):
join = serf.join('127.0.0.1:7373')
assert join.head == {b'Error': b'EOF', b'Seq': 1}
assert join.body == {b'Num': 0}
def test_member_list_is_not_empty(self, serf):
members = serf.members()
assert len(members.body[b'Members']) > 0
def test_member_filtering_name(self, serf):
# Get current node name.
members = serf.members()
name = members.body[b'Members'][0][b'Name']
members = serf.members(name=name)
assert len(members.body[b'Members']) == 1
def test_member_filtering_name_no_matches(self, serf):
members = serf.members(name="no_node_has_this_name")
assert len(members.body[b'Members']) == 0
def test_member_filtering_status_alive(self, serf):
members = serf.members(status="alive")
assert len(members.body[b'Members']) > 0
def test_member_filtering_status_no_matches(self, serf):
members = serf.members(status="invalid_status")
assert len(members.body[b'Members']) == 0
def test_member_filtering_tags(self, serf):
members = serf.members(tags={'foo': 'bar'})
assert len(members.body[b'Members']) == 1
def test_member_filtering_tags_regex(self, serf):
members = serf.members(tags={'foo': 'ba[rz]'})
assert len(members.body[b'Members']) == 1
def test_member_check_addr(self, serf):
# regression test for issue 20
members = serf.members()
ip_addr = members.body[b'Members'][0][b'Addr']
assert re.match(b'^\d{1,3}\.\d{1,3}\.\d{1,3}\.\d{1,3}$', ip_addr)
def test_stats_is_well_formed(self, serf):
stats = serf.stats()
for key in [b'agent', b'runtime', b'serf', b'tags']:
assert key in stats.body
assert isinstance(stats.body[key], dict)
def test_get_coordinate_well_formed(self, serf):
coordinate = serf.get_coordinate("host1")
assert b'Coord' in coordinate.body
for key in [b'Height', b'Error', b'Vec', b'Adjustment']:
assert key in coordinate.body[b'Coord']
def test_close(self, serf):
assert serf.connection is not None
serf.close()
assert serf.connection is None
|
class TestSerfClientCommands(object):
'''
Common commands for the library
'''
@pytest.yield_fixture
def serf(self):
pass
@mock.patch('serfclient.client.SerfConnection')
def test_rpc_auth(self, mock_serf_connection_class):
pass
def test_has_a_default_host_and_port(self, serf):
pass
def test_initialises_a_serf_connection_on_creation(self, serf):
pass
def test_set_a_tag(self, serf):
pass
def test_delete_a_tag(self, serf):
pass
def test_sending_a_simple_event(self, serf):
pass
def test_sending_a_non_coalescing_event(self, serf):
pass
def test_event_payload_is_optional(self, serf):
pass
def test_force_leaving_of_a_node(self, serf):
pass
def test_joining_a_non_existent_node(self, serf):
pass
def test_joining_an_existing_node_fails(self, serf):
pass
def test_providing_a_single_value_should_put_it_inside_a_list(self, serf):
pass
def test_member_list_is_not_empty(self, serf):
pass
def test_member_filtering_name(self, serf):
pass
def test_member_filtering_name_no_matches(self, serf):
pass
def test_member_filtering_status_alive(self, serf):
pass
def test_member_filtering_status_no_matches(self, serf):
pass
def test_member_filtering_tags(self, serf):
pass
def test_member_filtering_tags_regex(self, serf):
pass
def test_member_check_addr(self, serf):
pass
def test_stats_is_well_formed(self, serf):
pass
def test_get_coordinate_well_formed(self, serf):
pass
def test_close(self, serf):
pass
| 27 | 1 | 4 | 0 | 4 | 0 | 1 | 0.05 | 1 | 3 | 1 | 0 | 24 | 0 | 24 | 24 | 128 | 25 | 98 | 50 | 71 | 5 | 86 | 46 | 61 | 2 | 1 | 1 | 26 |
144,291 |
KushalP/serfclient-py
|
KushalP_serfclient-py/serfclient/environment_config.py
|
serfclient.environment_config.EnvironmentConfig
|
class EnvironmentConfig(object):
"""
Reads environment variables that Serf understands and parses
them into a easily consumable object.
Currently supports reading the following environment variables:
- SERF_RPC_AUTH
- SERF_RPC_ADDR
and sets attributes:
- host
- port
- auth_key
"""
def __init__(self):
self.host = 'localhost'
self.port = 7373
self.auth_key = None
rpc_addr = os.getenv('SERF_RPC_ADDR')
if rpc_addr:
self.host, self.port = rpc_addr.split(':')
self.port = int(self.port)
rpc_auth = os.getenv('SERF_RPC_AUTH')
if rpc_auth:
self.auth_key = rpc_auth
|
class EnvironmentConfig(object):
'''
Reads environment variables that Serf understands and parses
them into a easily consumable object.
Currently supports reading the following environment variables:
- SERF_RPC_AUTH
- SERF_RPC_ADDR
and sets attributes:
- host
- port
- auth_key
'''
def __init__(self):
pass
| 2 | 1 | 13 | 2 | 11 | 0 | 3 | 0.92 | 1 | 1 | 0 | 0 | 1 | 3 | 1 | 1 | 30 | 7 | 12 | 7 | 10 | 11 | 12 | 7 | 10 | 3 | 1 | 1 | 3 |
144,292 |
KushalP/serfclient-py
|
/Users/umroot/Documents/PhD_works/PhD-Core-Contents/Class-level-dataset-curation/data/git_repos_for_analysis/KushalP_serfclient-py/tests/test_connection.py
|
tests.test_connection.TestSerfConnection.test_connection_closed.MockSocket
|
class MockSocket:
def sendall(self, content):
pass
def recv(self, size):
return ""
def close(self):
pass
|
class MockSocket:
def sendall(self, content):
pass
def recv(self, size):
pass
def close(self):
pass
| 4 | 0 | 2 | 0 | 2 | 0 | 1 | 0 | 0 | 0 | 0 | 0 | 3 | 0 | 3 | 3 | 9 | 2 | 7 | 4 | 3 | 0 | 7 | 4 | 3 | 1 | 0 | 0 | 3 |
144,293 |
KushalP/serfclient-py
|
KushalP_serfclient-py/tests/test_connection.py
|
tests.test_connection.TestSerfConnection
|
class TestSerfConnection(object):
"""
Tests for the Serf RPC communication object.
"""
@pytest.yield_fixture
def rpc(self):
with closing(connection.SerfConnection()) as conn:
yield conn
def test_has_a_default_host_port_and_timeout(self, rpc):
assert rpc.host == 'localhost'
assert rpc.port == 7373
assert rpc.timeout == 3
def test_allows_passing_host_port_and_timeout(self):
with closing(
connection.SerfConnection(host='foo', port=455, timeout=500)
) as rpc:
assert rpc.host == 'foo'
assert rpc.port == 455
assert rpc.timeout == 500
def test_representation(self, rpc):
assert str(rpc) == \
'SerfConnection<counter=0,host=localhost,port=7373,timeout=3>'
def test_connection_to_bad_socket_throws_exception(self):
with closing(connection.SerfConnection(port=40000)) as rpc:
with pytest.raises(
connection.SerfConnectionError
) as exceptionInfo:
rpc.handshake()
assert 'connecting localhost:40000. Connection refused.' \
in str(exceptionInfo)
def test_handshake_to_serf_agent(self, rpc):
assert rpc.handshake().head == {b'Seq': 0, b'Error': b''}
def test_call_throws_exception_if_socket_none(self, rpc):
with pytest.raises(connection.SerfConnectionError) as exceptionInfo:
rpc.call('members')
assert 'handshake must be made first' in str(exceptionInfo)
def test_handshake_and_call_increments_counter(self, rpc):
assert 'counter=0' in str(rpc)
rpc.handshake()
assert 'counter=1' in str(rpc)
rpc.call('event',
{"Name": "foo", "Payload": "test payload", "Coalesce": True},
expect_body=False)
assert 'counter=2' in str(rpc)
def test_msgpack_object_stream_decode(self, rpc):
rpc.handshake()
result = rpc.call('members')
assert result.head == {b'Error': b'', b'Seq': 1}
assert b'Members' in result.body.keys()
def test_small_socket_recv_size(self, rpc):
# Read a paltry 7 bytes at a time, intended to stress the buffered
# socket reading and msgpack message handling logic.
rpc.handshake()
rpc._socket_recv_size = 7
result = rpc.call('members')
assert result.head == {b'Error': b'', b'Seq': 1}
assert b'Members' in result.body.keys()
def test_rpc_timeout(self, rpc):
# Avoid delaying the test too much.
rpc.timeout = 0.1
rpc.handshake()
with pytest.raises(connection.SerfTimeout):
# Incorrectly set expect_body to True for an event RPC,
# which will wait around for a body it'll never get,
# which should cause a SerfTimeout exception.
rpc.call('event',
{"Name": "foo", "Payload": "test payload",
"Coalesce": True},
expect_body=True)
def test_rxing_too_many_messages(self, rpc):
rpc.handshake()
# Sneakily send two members requests using the socket directly, and
# then don't read from the socket in order to make sure the socket
# receive buffer has many more responses than expected the next time
# a real RPC call is made.
for index in range(2):
rpc._socket.sendall(
connection.msgpack.packb({"Seq": rpc._counter(),
"Command": "members"}))
# Allow serf a moment to make sure it has responded to both requests
# and that the socket recieve buffer has the content.
time.sleep(0.05)
# This call should recieve all the previous responses at once
# and it should fail.
with pytest.raises(connection.SerfProtocolError):
rpc.call('members')
def test_connection_closed(self, rpc):
rpc.handshake()
# Mock socket.recv returning an empty string, as it does when the
# connection has been closed.
class MockSocket:
def sendall(self, content):
pass
def recv(self, size):
return ""
def close(self):
pass
rpc._socket = MockSocket()
with pytest.raises(connection.SerfConnectionError):
rpc.handshake()
def test_decode_addr_key_ipv6(self, rpc):
ip_address = '2001:a:b:c:1:2:3:4'
assert extract_addr(rpc, ip_address) == ip_address
def test_decode_addr_key_ipv4_mapped_ipv6(self, rpc):
assert extract_addr(rpc, '::ffff:192.168.0.1') == '192.168.0.1'
def test_decode_addr_key_ipv4(self, rpc):
ip_address = '192.168.0.1'
assert extract_addr(rpc, ip_address, socket.AF_INET) == ip_address
def test_close(self, rpc):
rpc.handshake()
assert rpc._socket is not None
rpc.close()
assert rpc._socket is None
|
class TestSerfConnection(object):
'''
Tests for the Serf RPC communication object.
'''
@pytest.yield_fixture
def rpc(self):
pass
def test_has_a_default_host_port_and_timeout(self, rpc):
pass
def test_allows_passing_host_port_and_timeout(self):
pass
def test_representation(self, rpc):
pass
def test_connection_to_bad_socket_throws_exception(self):
pass
def test_handshake_to_serf_agent(self, rpc):
pass
def test_call_throws_exception_if_socket_none(self, rpc):
pass
def test_handshake_and_call_increments_counter(self, rpc):
pass
def test_msgpack_object_stream_decode(self, rpc):
pass
def test_small_socket_recv_size(self, rpc):
pass
def test_rpc_timeout(self, rpc):
pass
def test_rxing_too_many_messages(self, rpc):
pass
def test_connection_closed(self, rpc):
pass
class MockSocket:
def sendall(self, content):
pass
def recv(self, size):
pass
def close(self):
pass
def test_decode_addr_key_ipv6(self, rpc):
pass
def test_decode_addr_key_ipv4_mapped_ipv6(self, rpc):
pass
def test_decode_addr_key_ipv4_mapped_ipv6(self, rpc):
pass
def test_close(self, rpc):
pass
| 23 | 1 | 6 | 0 | 5 | 1 | 1 | 0.2 | 1 | 8 | 5 | 0 | 17 | 0 | 17 | 17 | 137 | 24 | 94 | 33 | 71 | 19 | 80 | 27 | 58 | 2 | 1 | 2 | 21 |
144,294 |
KushalP/serfclient-py
|
KushalP_serfclient-py/tests/test_client_stream.py
|
tests.test_client_stream.TestSerfClientStream
|
class TestSerfClientStream(object):
"""
Common commands for the library
"""
@pytest.yield_fixture
def serf(self):
with closing(client.SerfClient(timeout=None)) as serf:
yield serf
def test_sending_a_simple_event(self, serf):
assert serf.event('foo', 'bar').head == {b'Error': b'', b'Seq': 1}
assert serf.event('bill', 'gates').head == {b'Error': b'', b'Seq': 2}
def test_stream(self, serf):
response = serf.stream()
assert response.head == {b'Error': b'', b'Seq': 1}
expected_data = sorted([
[b'bill', b'gates'],
[b'foo', b'bar'],
])
all_responses = []
count = 0
for response in response.body:
if response.body[b'Event'] == b'user':
all_responses.append(response)
if len(all_responses) == 2:
serf.close()
sorted_responses = sorted([
[
res.body[b'Name'],
res.body[b'Payload'],
] for res in all_responses
])
for i, res in enumerate(sorted_responses):
expected = expected_data[i]
assert res[0] == expected[0]
assert res[1] == expected[1]
|
class TestSerfClientStream(object):
'''
Common commands for the library
'''
@pytest.yield_fixture
def serf(self):
pass
def test_sending_a_simple_event(self, serf):
pass
def test_stream(self, serf):
pass
| 5 | 1 | 10 | 0 | 10 | 0 | 2 | 0.09 | 1 | 3 | 1 | 0 | 3 | 0 | 3 | 3 | 38 | 3 | 32 | 13 | 27 | 3 | 23 | 11 | 19 | 5 | 1 | 3 | 7 |
144,295 |
KushalP/serfclient-py
|
KushalP_serfclient-py/serfclient/result.py
|
serfclient.result.SerfResult
|
class SerfResult(object):
"""
Bounded result object for responses from a Serf agent.
"""
def __init__(self, head=None, body=None):
self.head, self.body = head, body
def __iter__(self):
for each in self.__dict__.keys():
yield self.__getattribute__(each)
def __repr__(self):
return "%(class)s<head=%(h)s,body=%(b)s>" \
% {'class': self.__class__.__name__,
'h': self.head,
'b': self.body}
|
class SerfResult(object):
'''
Bounded result object for responses from a Serf agent.
'''
def __init__(self, head=None, body=None):
pass
def __iter__(self):
pass
def __repr__(self):
pass
| 4 | 1 | 3 | 0 | 3 | 0 | 1 | 0.27 | 1 | 0 | 0 | 0 | 3 | 2 | 3 | 3 | 17 | 3 | 11 | 6 | 7 | 3 | 8 | 6 | 4 | 2 | 1 | 1 | 4 |
144,296 |
KvasirSecurity/kvasirapi-python
|
KvasirSecurity_kvasirapi-python/KvasirAPI/jsonrpc/vulns.py
|
KvasirAPI.jsonrpc.vulns.Vulns
|
class Vulns(ConnectorJSONRPC):
"""Vulnerabilities"""
def list(self, host_rec=None, service_rec=None, hostfilter=None):
"""
Returns a list of vulnerabilities based on t_hosts.id or t_services.id.
If neither are set then statistical results are added
:param host_rec: db.t_hosts.id
:param service_rec: db.t_services.id
:param hostfilter: Valid hostfilter or None
:return: [(vulndata) ...] if host_rec or service_rec set
:return: [(vulndata, vuln_cnt, [vuln_ip, ...], [services ...]) ...] if nothing sent
"""
return self.send.vuln_list(host_rec, service_rec, hostfilter)
def info(self, vuln_name=None, vuln_id=None):
"""
Returns information about a vulnerability
:param vuln_name: t_vulndata.f_vulnid
:param vuln_id: t_vulndata.id
:return: vulnerability data
"""
return self.send.vuln_info(vuln_name, vuln_id)
def ip_info(self, vuln_name=None, vuln_id=None, ip_list_only=True, hostfilter=None):
"""
List of all IP Addresses with a vulnerability
:param vuln_name: t_vulndata.f_vulnid
:param vuln_id: t_vulndata.id
:param ip_list_only: IP List only (default) or rest of t_hosts fields
:param hostfilter: Valid hostfilter or none
:return: [(ip, hostname) ...] or [(ip, hostname, t_service_vulns.f_proof, t_service_vulns.f_status), ...]
"""
return self.send.vuln_ip_info(vuln_name, vuln_id, ip_list_only, hostfilter)
def service_list(self, vuln_name=None, vuln_id=None, hostfilter=None):
"""
Returns a dictionary of vulns with services and IP Addresses
:param vuln_name: t_vulndata.f_vulnid
:param vuln_id: t_vulndata.id
:param hostfilter: Valid hostfilter or none
:return: {'vuln-id': {'port': [ ip, hostname ]} ...} ...
"""
return self.send.vuln_service_list(vuln_name, vuln_id, hostfilter)
|
class Vulns(ConnectorJSONRPC):
'''Vulnerabilities'''
def list(self, host_rec=None, service_rec=None, hostfilter=None):
'''
Returns a list of vulnerabilities based on t_hosts.id or t_services.id.
If neither are set then statistical results are added
:param host_rec: db.t_hosts.id
:param service_rec: db.t_services.id
:param hostfilter: Valid hostfilter or None
:return: [(vulndata) ...] if host_rec or service_rec set
:return: [(vulndata, vuln_cnt, [vuln_ip, ...], [services ...]) ...] if nothing sent
'''
pass
def info(self, vuln_name=None, vuln_id=None):
'''
Returns information about a vulnerability
:param vuln_name: t_vulndata.f_vulnid
:param vuln_id: t_vulndata.id
:return: vulnerability data
'''
pass
def ip_info(self, vuln_name=None, vuln_id=None, ip_list_only=True, hostfilter=None):
'''
List of all IP Addresses with a vulnerability
:param vuln_name: t_vulndata.f_vulnid
:param vuln_id: t_vulndata.id
:param ip_list_only: IP List only (default) or rest of t_hosts fields
:param hostfilter: Valid hostfilter or none
:return: [(ip, hostname) ...] or [(ip, hostname, t_service_vulns.f_proof, t_service_vulns.f_status), ...]
'''
pass
def service_list(self, vuln_name=None, vuln_id=None, hostfilter=None):
'''
Returns a dictionary of vulns with services and IP Addresses
:param vuln_name: t_vulndata.f_vulnid
:param vuln_id: t_vulndata.id
:param hostfilter: Valid hostfilter or none
:return: {'vuln-id': {'port': [ ip, hostname ]} ...} ...
'''
pass
| 5 | 5 | 11 | 1 | 2 | 8 | 1 | 3.44 | 1 | 0 | 0 | 0 | 4 | 0 | 4 | 6 | 48 | 8 | 9 | 5 | 4 | 31 | 9 | 5 | 4 | 1 | 1 | 0 | 4 |
144,297 |
KvasirSecurity/kvasirapi-python
|
KvasirSecurity_kvasirapi-python/KvasirAPI/jsonrpc/stats.py
|
KvasirAPI.jsonrpc.stats.Stats
|
class Stats(ConnectorJSONRPC):
"""Database Statistics"""
def dbcount(self, tblist=[], hostfilter=None):
"""
Database statistics
:param tblist: List of table names to gather stats from
:param hostfilter: Valid hostfilter or None
:return: Dictionary of {table: count}
"""
return self.send.tbl_count(tblist, hostfilter)
|
class Stats(ConnectorJSONRPC):
'''Database Statistics'''
def dbcount(self, tblist=[], hostfilter=None):
'''
Database statistics
:param tblist: List of table names to gather stats from
:param hostfilter: Valid hostfilter or None
:return: Dictionary of {table: count}
'''
pass
| 2 | 2 | 9 | 1 | 2 | 6 | 1 | 2.33 | 1 | 0 | 0 | 0 | 1 | 0 | 1 | 3 | 12 | 2 | 3 | 2 | 1 | 7 | 3 | 2 | 1 | 1 | 1 | 0 | 1 |
144,298 |
KvasirSecurity/kvasirapi-python
|
KvasirSecurity_kvasirapi-python/KvasirAPI/jsonrpc/accounts.py
|
KvasirAPI.jsonrpc.accounts.Accounts
|
class Accounts(ConnectorJSONRPC):
"""User accounts"""
def list(self, svc_rec=None, hostfilter=None, compromised=False):
"""
List user accounts
:param svc_rec: db.t_services.id
:param hostfilter:
:param compromised: Show only compromised accounts
:return: [acct.t_accounts.f_services_id, acct.t_hosts.f_ipaddr,
acct.t_hosts.f_hostname,
acct.t_accounts.id, acct.t_accounts.f_username,
acct.t_accounts.f_fullname, acct.t_accounts.f_password,
acct.t_accounts.f_compromised, acct.t_accounts.f_hash1,
acct.t_accounts.f_hash1_type, acct.t_accounts.f_hash2,
acct.t_accounts.f_hash2_type, acct.t_accounts.f_source,
acct.t_accounts.f_uid, acct.t_accounts.f_gid,
acct.t_accounts.f_level, acct.t_accounts.f_domain,
acct.t_accounts.f_message, acct.t_accounts.f_lockout,
acct.t_accounts.f_duration, acct.t_accounts.f_active,
acct.t_accounts.f_description,
acct.t_services.f_proto, acct.t_services.f_number,
]
"""
return self.send.accounts_list(svc_rec, hostfilter, compromised)
def add(self, svc_rec=None, records=None):
"""
Add account data
:param svc_rec: db.t_services.id
:param records: db.t_accounts field content dictionary
:return: (True/False, db.t_accounts.id)
"""
return self.send.accounts_add(svc_rec, records)
def info(self, rec=None):
"""
Information about an account
:param rec: db.t_accounts.id
:return: [True/False, hostrec.f_ipaddr, hostrec.f_hostname,
svc_rec.f_proto, svc_rec.f_number,
acct.id, acct.f_username, acct.f_fullname, acct.f_password,
acct.f_compromised, acct.f_hash1, acct.f_hash1_type, acct.f_hash2,
acct.f_hash2_type, acct.f_source, acct.f_uid, acct.f_gid,
acct.f_level, acct.f_domain, acct.f_message, acct.f_lockout,
acct.f_duration, acct.f_active, acct.f_description]
"""
return self.send.accounts_info(rec)
def update(self, rec=None, values=None):
"""
Update a db.t_accounts record
:param rec: db.t_accounts.id
:param values: db.t_accounts fields to update
:return: (True/False, Message)
"""
return self.send.accounts_update(rec, values)
def list_pw_types(self):
"""
List the known password types
:return:
"""
return self.send.list_pw_types()
def upload_file(self, service_rec=None, host_service=None, filename=None,
pw_data=None, f_type=None, add_to_evidence=True):
"""
Upload a password file
:param service_rec: db.t_services.id
:param host_service: db.t_hosts.id
:param filename: Filename
:param pw_data: Content of file
:param f_type: Type of file
:param add_to_evidence: True/False to add to t_evidence
:return: (True/False, Response Message)
"""
return self.send.accounts_upload_file(service_rec, host_service, filename, pw_data, f_type, add_to_evidence)
def delete(self, rec=None):
"""
Delete a db.t_accounts record
:param rec: [db.t_accounts.id, db.t_accounts.id, ... ]
:return: (True/False, Message string)
"""
return self.send.accounts_del(rec)
def index_data(self, hostfilter=None):
"""
List of IP Addresses and account statistics.
:param hostfilter: Hostfilter dict
:return:
"""
return self.send.accounts_index_data(hostfilter)
|
class Accounts(ConnectorJSONRPC):
'''User accounts'''
def list(self, svc_rec=None, hostfilter=None, compromised=False):
'''
List user accounts
:param svc_rec: db.t_services.id
:param hostfilter:
:param compromised: Show only compromised accounts
:return: [acct.t_accounts.f_services_id, acct.t_hosts.f_ipaddr,
acct.t_hosts.f_hostname,
acct.t_accounts.id, acct.t_accounts.f_username,
acct.t_accounts.f_fullname, acct.t_accounts.f_password,
acct.t_accounts.f_compromised, acct.t_accounts.f_hash1,
acct.t_accounts.f_hash1_type, acct.t_accounts.f_hash2,
acct.t_accounts.f_hash2_type, acct.t_accounts.f_source,
acct.t_accounts.f_uid, acct.t_accounts.f_gid,
acct.t_accounts.f_level, acct.t_accounts.f_domain,
acct.t_accounts.f_message, acct.t_accounts.f_lockout,
acct.t_accounts.f_duration, acct.t_accounts.f_active,
acct.t_accounts.f_description,
acct.t_services.f_proto, acct.t_services.f_number,
]
'''
pass
def add(self, svc_rec=None, records=None):
'''
Add account data
:param svc_rec: db.t_services.id
:param records: db.t_accounts field content dictionary
:return: (True/False, db.t_accounts.id)
'''
pass
def info(self, rec=None):
'''
Information about an account
:param rec: db.t_accounts.id
:return: [True/False, hostrec.f_ipaddr, hostrec.f_hostname,
svc_rec.f_proto, svc_rec.f_number,
acct.id, acct.f_username, acct.f_fullname, acct.f_password,
acct.f_compromised, acct.f_hash1, acct.f_hash1_type, acct.f_hash2,
acct.f_hash2_type, acct.f_source, acct.f_uid, acct.f_gid,
acct.f_level, acct.f_domain, acct.f_message, acct.f_lockout,
acct.f_duration, acct.f_active, acct.f_description]
'''
pass
def update(self, rec=None, values=None):
'''
Update a db.t_accounts record
:param rec: db.t_accounts.id
:param values: db.t_accounts fields to update
:return: (True/False, Message)
'''
pass
def list_pw_types(self):
'''
List the known password types
:return:
'''
pass
def upload_file(self, service_rec=None, host_service=None, filename=None,
pw_data=None, f_type=None, add_to_evidence=True):
'''
Upload a password file
:param service_rec: db.t_services.id
:param host_service: db.t_hosts.id
:param filename: Filename
:param pw_data: Content of file
:param f_type: Type of file
:param add_to_evidence: True/False to add to t_evidence
:return: (True/False, Response Message)
'''
pass
def delete(self, rec=None):
'''
Delete a db.t_accounts record
:param rec: [db.t_accounts.id, db.t_accounts.id, ... ]
:return: (True/False, Message string)
'''
pass
def index_data(self, hostfilter=None):
'''
List of IP Addresses and account statistics.
:param hostfilter: Hostfilter dict
:return:
'''
pass
| 9 | 9 | 11 | 1 | 2 | 8 | 1 | 3.78 | 1 | 0 | 0 | 0 | 8 | 0 | 8 | 10 | 101 | 15 | 18 | 10 | 8 | 68 | 17 | 9 | 8 | 1 | 1 | 0 | 8 |
144,299 |
KvasirSecurity/kvasirapi-python
|
KvasirSecurity_kvasirapi-python/KvasirAPI/API.py
|
KvasirAPI.API.API
|
class API():
"""An API to communicate with Kvasir.
Kvasir is a Penetration Testing Data Management system (https://github.com/KvasirSecurity/Kvasir).
This API allows third-party tools to communicate with Kvasir through a JSONRPC library.
To use:
```
import KvasirAPI
kvasir = KvasirAPI.API('config.yaml')
```
Multiple Kvasir instances can be defined in the configuration file. A sample configuration:
```
customer:
id: 11-ACME-01
full-name: ACME Widgets, Inc.
short-name: ACME
possessive: ACME Widget, Inc's
short-capital: ACME
possessive-capital: ACME's
instances:
internal:
url: "http://username:password@localhost:8000/internal/"
name: Internal Network
test_type: internal
start: May 2, 2011
end: May 6, 2011
filter_type: assetgroup
filter_value: organization
external:
url: "http://username:password@localhost:8000/external/"
test_type: external
start: May 2, 2011
end: May 6, 2011
name: External Network
web2py: build/web2py
```
"""
def __init__(self, configuration=None):
"""
Kvasir API initialization
:param configuration: YAML configuration in a string or filename
:return: instance
"""
self.api_version = __version__
self._representation = "Kvasir v%s" % __version__
self.api_calls = None
self.configuration = Configuration(configuration)
self.call = Calls()
if self.configuration.valid:
self.load_calls(self.configuration.api_type)
def __repr__(self):
return self._representation
@property
def version(self):
return self.api_version
def load_calls(self, call_type='jsonrpc'):
"""Loads the KvasirAPI calls into API.call based on the call_type variable. Utilizes the `Calls` class to
establish an attribute-based access method. For instance a configuration with an instance called 'internal'
will create an API.call that can be used like this:
API.call.internal.hosts.list() # return all hosts from Kvasir instance 'internal'
:param call_type: string of 'jsonrpc' or 'restapi'
:return: self.call dictionary
"""
valid = False
if call_type == 'jsonrpc':
#from jsonrpc import Hosts, Services, Accounts, Vulns, OS, NetBIOS, Evidence
import jsonrpc as api_calls
self.api_calls = api_calls
valid = True
#if call_type == 'rest'
# TODO: Implement restful API functions
#from restapi import hosts, services, accounts, vulns, os, netbios, evidence
if valid:
# if kvasir configuration is valid, go through the instances and build the self.call dict
for instance, values in self.configuration.instances_dict.items():
self.call[instance] = Calls()
self.call[instance].call_type = call_type
self.call[instance].hosts = self.api_calls.Hosts(values, self.configuration.web2py_dir)
self.call[instance].services = self.api_calls.Services(values, self.configuration.web2py_dir)
self.call[instance].accounts = self.api_calls.Accounts(values, self.configuration.web2py_dir)
self.call[instance].vulns = self.api_calls.Vulns(values, self.configuration.web2py_dir)
self.call[instance].os = self.api_calls.OpSys(values, self.configuration.web2py_dir)
self.call[instance].snmp = self.api_calls.SNMP(values, self.configuration.web2py_dir)
self.call[instance].netbios = self.api_calls.NetBIOS(values, self.configuration.web2py_dir)
self.call[instance].evidence = self.api_calls.Evidence(values, self.configuration.web2py_dir)
self.call[instance].stats = self.api_calls.Stats(values, self.configuration.web2py_dir)
|
class API():
'''An API to communicate with Kvasir.
Kvasir is a Penetration Testing Data Management system (https://github.com/KvasirSecurity/Kvasir).
This API allows third-party tools to communicate with Kvasir through a JSONRPC library.
To use:
```
import KvasirAPI
kvasir = KvasirAPI.API('config.yaml')
```
Multiple Kvasir instances can be defined in the configuration file. A sample configuration:
```
customer:
id: 11-ACME-01
full-name: ACME Widgets, Inc.
short-name: ACME
possessive: ACME Widget, Inc's
short-capital: ACME
possessive-capital: ACME's
instances:
internal:
url: "http://username:password@localhost:8000/internal/"
name: Internal Network
test_type: internal
start: May 2, 2011
end: May 6, 2011
filter_type: assetgroup
filter_value: organization
external:
url: "http://username:password@localhost:8000/external/"
test_type: external
start: May 2, 2011
end: May 6, 2011
name: External Network
web2py: build/web2py
```
'''
def __init__(self, configuration=None):
'''
Kvasir API initialization
:param configuration: YAML configuration in a string or filename
:return: instance
'''
pass
def __repr__(self):
pass
@property
def version(self):
pass
def load_calls(self, call_type='jsonrpc'):
'''Loads the KvasirAPI calls into API.call based on the call_type variable. Utilizes the `Calls` class to
establish an attribute-based access method. For instance a configuration with an instance called 'internal'
will create an API.call that can be used like this:
API.call.internal.hosts.list() # return all hosts from Kvasir instance 'internal'
:param call_type: string of 'jsonrpc' or 'restapi'
:return: self.call dictionary
'''
pass
| 6 | 3 | 13 | 1 | 8 | 4 | 2 | 1.58 | 0 | 2 | 2 | 0 | 4 | 5 | 4 | 4 | 100 | 15 | 33 | 14 | 26 | 52 | 32 | 13 | 26 | 4 | 0 | 2 | 8 |
144,300 |
KvasirSecurity/kvasirapi-python
|
KvasirSecurity_kvasirapi-python/KvasirAPI/jsonrpc/connector.py
|
KvasirAPI.jsonrpc.connector.ConnectorJSONRPC
|
class ConnectorJSONRPC():
"""Welcome to the grand ConnectorJSONRPC. It loves to talk to Kvasir
JSONRPC instances to send it commands and gobble its responses. That's all!
To use it: ConnectorJSONRPC.send.<api command>(variables)
:param instance: dict of KvasirAPI.instance
:param web2py_dir: string of web2py directory, if configured, for simplejsonrpc library
:return: JSONRPC connector routine
"""
def __init__(self, instance=None, web2py_dir=None):
self.log = logging.getLogger(str(self.__class__))
self.instance = instance or {}
self.web2py_dir = web2py_dir
self.kvasir_jsonrpc_path = '/api/call/jsonrpc'
if self.web2py_dir:
sys.path.append(self.web2py_dir)
try:
import jsonrpclib
has_jsonrpclib = True
except ImportError:
try:
from gluon.contrib import simplejsonrpc
has_jsonrpclib = False
except ImportError:
raise ImportError("""**** ERROR ****\n
Unable to find and load the JSONRPC library. There are two options:
Option 1: Set web2py path in your YAML configuration file
Option 2: pip install jsonrpclib
sys.path = %s
""" % sys.path)
kvasir_path = make_good_url(self.instance.get('url'), self.kvasir_jsonrpc_path)
if has_jsonrpclib:
self.send = jsonrpclib.Server(kvasir_path)
else:
self.send = simplejsonrpc.ServerProxy(kvasir_path)
def version_check(self):
# TODO: error handling when server isn't up
version = self.send.version()
if version != self.api_version:
raise RuntimeError("Expected API version %s but communicating with version %s" %
(self.api_version, version))
|
class ConnectorJSONRPC():
'''Welcome to the grand ConnectorJSONRPC. It loves to talk to Kvasir
JSONRPC instances to send it commands and gobble its responses. That's all!
To use it: ConnectorJSONRPC.send.<api command>(variables)
:param instance: dict of KvasirAPI.instance
:param web2py_dir: string of web2py directory, if configured, for simplejsonrpc library
:return: JSONRPC connector routine
'''
def __init__(self, instance=None, web2py_dir=None):
pass
def version_check(self):
pass
| 3 | 1 | 18 | 2 | 16 | 1 | 4 | 0.25 | 0 | 3 | 0 | 9 | 2 | 5 | 2 | 2 | 47 | 7 | 32 | 13 | 27 | 8 | 25 | 13 | 20 | 5 | 0 | 2 | 7 |
144,301 |
KvasirSecurity/kvasirapi-python
|
KvasirSecurity_kvasirapi-python/KvasirAPI/API.py
|
KvasirAPI.API.Calls
|
class Calls(dict):
"""A class of call routines to reach Kvasir through the API"""
def __init__(self, *args, **kwargs):
super(Calls, self).__init__(*args, **kwargs)
self.__dict__ = self
|
class Calls(dict):
'''A class of call routines to reach Kvasir through the API'''
def __init__(self, *args, **kwargs):
pass
| 2 | 1 | 3 | 0 | 3 | 0 | 1 | 0.25 | 1 | 1 | 0 | 0 | 1 | 1 | 1 | 28 | 5 | 0 | 4 | 3 | 2 | 1 | 4 | 3 | 2 | 1 | 2 | 0 | 1 |
144,302 |
KvasirSecurity/kvasirapi-python
|
KvasirSecurity_kvasirapi-python/KvasirAPI/jsonrpc/services.py
|
KvasirAPI.jsonrpc.services.Services
|
class Services(ConnectorJSONRPC):
"""Services"""
def list(self, service_rec=None, host_rec=None, hostfilter=None):
"""
List a specific service or all services
:param service_rec: t_services.id
:param host_rec: t_hosts.id
:param hostfilter: Valid hostfilter or None
:return: [(svc.t_services.id, svc.t_services.f_hosts_id, svc.t_hosts.f_ipaddr,
svc.t_hosts.f_hostname, svc.t_services.f_proto,
svc.t_services.f_number, svc.t_services.f_status, svc.t_services.f_name,
svc.t_services.f_banner), ...]
"""
return self.send.service_list(service_rec, host_rec, hostfilter)
def list_only(self, host_rec=None, hostfilter=None):
"""
Returns a list of ports based on a t_hosts.id, hostfilter or all
:param host_rec: t_hosts.id
:param hostfilter: Valid hostfilter or None
:return: [ service_id, host_id, ip, hostname, proto, number, status, name, banner, [ vuln list ...] ]
"""
return self.send.service_list_only(host_rec, hostfilter)
def info(self, svc_rec=None, ipaddr=None, proto=None, port=None):
"""
Information about a service.
:param svc_rec: t_services.id
:param ipaddr: IP Address
:param proto: Protocol (tcp, udp, info)
:param port: Port (0-65535)
:return: [ service_id, host_id, ipv4, ipv6, hostname, proto, number, status, name, banner ]
"""
return self.send.service_info(svc_rec, ipaddr, proto, port)
def add(self, ipaddr=None, proto=None, port=None, fields=None):
"""
Add a service record
:param ipaddr: IP Address
:param proto: Protocol (tcp, udp, info)
:param port: Port (0-65535)
:param fields: Extra fields
:return: (True/False, t_services.id or response message)
"""
return self.send.service_add(ipaddr, proto, port, fields)
def delete(self, svc_rec=None, ipaddr=None, proto=None, port=None):
"""
Delete a t_services record
:param svc_rec: t_services.id
:param ipaddr: IP Address or t_hosts.id
:param proto: Protocol (tcp, udp, info)
:param port: Port (0-65535)
:return: [True, Response Message]
"""
return self.send.service_del(svc_rec, ipaddr, proto, port)
def index_stats(self, hostfilter=None):
"""
Returns a services index of statistics
:param hostfilter: Valid hostfilter or None
:return: { 'service': [t_service.f_name, host count, unique vuln count, total vuln count], ... }
"""
return self.send.service_rpt_index_stats(hostfilter)
def report_list(self, service_id=None, service_port=None, hostfilter=None):
"""
Returns a list of ports with IPs, banners and vulnerabilities (warning, slow!)
:param service_id: t_services.id
:param service_port: Port (tcp/#, udp/#, info/#)
:param hostfilter: Valid hostfilter or None
:return: { 'port': [t_hosts.f_ipaddr, t_services.f_banner,
(t_vulndata.f_vulnid, t_vulndata.f_title, t_vulndata.f_severity, t_vulndata.f_cvss_score), ...}
"""
return self.send.service_report_list(service_id, service_port, hostfilter)
def vulns_list(self, service_id=None, service_port=None, hostfilter=None):
"""
List of vulnerabilities for a service
:param service_id: t_services.id
:param service_port: tcp/#, udp/# or info/#
:param hostfilter: Valid hostfilter or None
:return: t_services.rows.as_list()
"""
return self.send.service_vulns_list(service_id, service_port, hostfilter)
def vuln_iptable(self, hostfilter=None):
"""
Returns a dict of services containing IPs with (vuln, severity)
:param hostfilter: Valid hostfilter or None
:return: '0/info': { 'host_id1': [ (ip, hostname), ( (vuln1, 5), (vuln2, 10) ... ) ] },
{ 'host_id2': [ (ip, hostname), ( (vuln1, 5) ) ] }
"""
return self.send.service_vuln_iptable(hostfilter)
|
class Services(ConnectorJSONRPC):
'''Services'''
def list(self, service_rec=None, host_rec=None, hostfilter=None):
'''
List a specific service or all services
:param service_rec: t_services.id
:param host_rec: t_hosts.id
:param hostfilter: Valid hostfilter or None
:return: [(svc.t_services.id, svc.t_services.f_hosts_id, svc.t_hosts.f_ipaddr,
svc.t_hosts.f_hostname, svc.t_services.f_proto,
svc.t_services.f_number, svc.t_services.f_status, svc.t_services.f_name,
svc.t_services.f_banner), ...]
'''
pass
def list_only(self, host_rec=None, hostfilter=None):
'''
Returns a list of ports based on a t_hosts.id, hostfilter or all
:param host_rec: t_hosts.id
:param hostfilter: Valid hostfilter or None
:return: [ service_id, host_id, ip, hostname, proto, number, status, name, banner, [ vuln list ...] ]
'''
pass
def info(self, svc_rec=None, ipaddr=None, proto=None, port=None):
'''
Information about a service.
:param svc_rec: t_services.id
:param ipaddr: IP Address
:param proto: Protocol (tcp, udp, info)
:param port: Port (0-65535)
:return: [ service_id, host_id, ipv4, ipv6, hostname, proto, number, status, name, banner ]
'''
pass
def add(self, ipaddr=None, proto=None, port=None, fields=None):
'''
Add a service record
:param ipaddr: IP Address
:param proto: Protocol (tcp, udp, info)
:param port: Port (0-65535)
:param fields: Extra fields
:return: (True/False, t_services.id or response message)
'''
pass
def delete(self, svc_rec=None, ipaddr=None, proto=None, port=None):
'''
Delete a t_services record
:param svc_rec: t_services.id
:param ipaddr: IP Address or t_hosts.id
:param proto: Protocol (tcp, udp, info)
:param port: Port (0-65535)
:return: [True, Response Message]
'''
pass
def index_stats(self, hostfilter=None):
'''
Returns a services index of statistics
:param hostfilter: Valid hostfilter or None
:return: { 'service': [t_service.f_name, host count, unique vuln count, total vuln count], ... }
'''
pass
def report_list(self, service_id=None, service_port=None, hostfilter=None):
'''
Returns a list of ports with IPs, banners and vulnerabilities (warning, slow!)
:param service_id: t_services.id
:param service_port: Port (tcp/#, udp/#, info/#)
:param hostfilter: Valid hostfilter or None
:return: { 'port': [t_hosts.f_ipaddr, t_services.f_banner,
(t_vulndata.f_vulnid, t_vulndata.f_title, t_vulndata.f_severity, t_vulndata.f_cvss_score), ...}
'''
pass
def vulns_list(self, service_id=None, service_port=None, hostfilter=None):
'''
List of vulnerabilities for a service
:param service_id: t_services.id
:param service_port: tcp/#, udp/# or info/#
:param hostfilter: Valid hostfilter or None
:return: t_services.rows.as_list()
'''
pass
def vuln_iptable(self, hostfilter=None):
'''
Returns a dict of services containing IPs with (vuln, severity)
:param hostfilter: Valid hostfilter or None
:return: '0/info': { 'host_id1': [ (ip, hostname), ( (vuln1, 5), (vuln2, 10) ... ) ] },
{ 'host_id2': [ (ip, hostname), ( (vuln1, 5) ) ] }
'''
pass
| 10 | 10 | 10 | 1 | 2 | 7 | 1 | 3.53 | 1 | 0 | 0 | 0 | 9 | 0 | 9 | 11 | 105 | 19 | 19 | 10 | 9 | 67 | 19 | 10 | 9 | 1 | 1 | 0 | 9 |
144,303 |
KvasirSecurity/kvasirapi-python
|
KvasirSecurity_kvasirapi-python/KvasirAPI/jsonrpc/opsys.py
|
KvasirAPI.jsonrpc.opsys.OpSys
|
class OpSys(ConnectorJSONRPC):
"""Operating Systems"""
def list(self, hostfilter=None, host=None):
"""
Lists Operating Systems based on hostfilter or Address
:param hostfilter: Valid hostfilter dict or None
:param host: IP Address or t_hosts.id
:return: [os_ref_rec.t_hosts.f_ipaddr,
os_ref_rec.t_hosts.f_hostname,
os_ref_rec.t_host_os_refs.f_certainty,
os_ref_rec.t_host_os_refs.f_class,
os_ref_rec.t_host_os_refs.f_family,
os_rec.f_cpename,
os_rec.f_title,
os_rec.f_vendor,
os_rec.f_product,
os_rec.f_version,
os_rec.f_update,
os_rec.f_edition,
os_rec.f_language
]
"""
return self.send.os_list(hostfilter, host)
def report_list(self, hostfilter=None):
"""
Lists top Operating Systems and host records based on hostfilter
:param hostfilter: Valid hostfilter dict or None
:return: [row.t_hosts.id,
row.t_hosts.f_ipaddr,
row.t_hosts.f_hostname,
highest[1].t_host_os_refs.f_certainty,
highest[1].t_host_os_refs.f_class,
highest[1].t_host_os_refs.f_family,
os_rec.f_cpename,
os_rec.f_title,
os_rec.f_vendor,
os_rec.f_product,
os_rec.f_version,
os_rec.f_update,
os_rec.f_edition,
os_rec.f_language
]
"""
return self.send.os_report_list(hostfilter)
|
class OpSys(ConnectorJSONRPC):
'''Operating Systems'''
def list(self, hostfilter=None, host=None):
'''
Lists Operating Systems based on hostfilter or Address
:param hostfilter: Valid hostfilter dict or None
:param host: IP Address or t_hosts.id
:return: [os_ref_rec.t_hosts.f_ipaddr,
os_ref_rec.t_hosts.f_hostname,
os_ref_rec.t_host_os_refs.f_certainty,
os_ref_rec.t_host_os_refs.f_class,
os_ref_rec.t_host_os_refs.f_family,
os_rec.f_cpename,
os_rec.f_title,
os_rec.f_vendor,
os_rec.f_product,
os_rec.f_version,
os_rec.f_update,
os_rec.f_edition,
os_rec.f_language
]
'''
pass
def report_list(self, hostfilter=None):
'''
Lists top Operating Systems and host records based on hostfilter
:param hostfilter: Valid hostfilter dict or None
:return: [row.t_hosts.id,
row.t_hosts.f_ipaddr,
row.t_hosts.f_hostname,
highest[1].t_host_os_refs.f_certainty,
highest[1].t_host_os_refs.f_class,
highest[1].t_host_os_refs.f_family,
os_rec.f_cpename,
os_rec.f_title,
os_rec.f_vendor,
os_rec.f_product,
os_rec.f_version,
os_rec.f_update,
os_rec.f_edition,
os_rec.f_language
]
'''
pass
| 3 | 3 | 22 | 1 | 2 | 19 | 1 | 7.8 | 1 | 0 | 0 | 0 | 2 | 0 | 2 | 4 | 48 | 4 | 5 | 3 | 2 | 39 | 5 | 3 | 2 | 1 | 1 | 0 | 2 |
144,304 |
KvasirSecurity/kvasirapi-python
|
KvasirSecurity_kvasirapi-python/KvasirAPI/jsonrpc/netbios.py
|
KvasirAPI.jsonrpc.netbios.NetBIOS
|
class NetBIOS(ConnectorJSONRPC):
"""NetBIOS"""
def list(self, hostfilter=None):
"""
List NetBIOS workgroups/domains for a hostfilter (or all if None)
:param hostfilter: Valid hostfilter dict or None
:return: (rec.t_hosts.f_ipaddr, rec.t_hosts.f_hostname,
rec.t_netbios.f_type, rec.t_netbios.f_advertised_names,
rec.t_netbios.f_domain, rec.t_netbios.f_lockout_limit,
rec.t_netbios.f_lockout_duration, rec.t_netbios.f_shares)
"""
return self.send.netbios_list(hostfilter)
def rpt_table(self, hostfilter=None):
"""
Generate a list of domains and number of hosts in each
:param hostfilter: Valid hostfilter dict or None
:return: (t_netbios.f_domain, count)
"""
return self.send.netbios_rpt_table(hostfilter)
def domain_members(self, domain=None, hostfilter=None):
"""
List domain member IP Addresses
:param domain: Domain name
:param hostfilter: Valid hostfilter dict or None
:return: (t_hosts.f_ipaddr)
"""
return self.send.netbios_domain_members(domain, hostfilter)
def domain_controllers(self, domain=None, hostfilter=None):
"""
Returns a list of domain controller IP Addresses
:param domain: Domain name
:param hostfilter: Valid hostfilter dict or None
:return: (t_hosts.f_ipaddr)
"""
return self.send.netbios_domain_controllers(domain, hostfilter)
|
class NetBIOS(ConnectorJSONRPC):
'''NetBIOS'''
def list(self, hostfilter=None):
'''
List NetBIOS workgroups/domains for a hostfilter (or all if None)
:param hostfilter: Valid hostfilter dict or None
:return: (rec.t_hosts.f_ipaddr, rec.t_hosts.f_hostname,
rec.t_netbios.f_type, rec.t_netbios.f_advertised_names,
rec.t_netbios.f_domain, rec.t_netbios.f_lockout_limit,
rec.t_netbios.f_lockout_duration, rec.t_netbios.f_shares)
'''
pass
def rpt_table(self, hostfilter=None):
'''
Generate a list of domains and number of hosts in each
:param hostfilter: Valid hostfilter dict or None
:return: (t_netbios.f_domain, count)
'''
pass
def domain_members(self, domain=None, hostfilter=None):
'''
List domain member IP Addresses
:param domain: Domain name
:param hostfilter: Valid hostfilter dict or None
:return: (t_hosts.f_ipaddr)
'''
pass
def domain_controllers(self, domain=None, hostfilter=None):
'''
Returns a list of domain controller IP Addresses
:param domain: Domain name
:param hostfilter: Valid hostfilter dict or None
:return: (t_hosts.f_ipaddr)
'''
pass
| 5 | 5 | 9 | 1 | 2 | 6 | 1 | 2.89 | 1 | 0 | 0 | 0 | 4 | 0 | 4 | 6 | 43 | 8 | 9 | 5 | 4 | 26 | 9 | 5 | 4 | 1 | 1 | 0 | 4 |
144,305 |
KvasirSecurity/kvasirapi-python
|
KvasirSecurity_kvasirapi-python/KvasirAPI/jsonrpc/hosts.py
|
KvasirAPI.jsonrpc.hosts.Hosts
|
class Hosts(ConnectorJSONRPC):
def list(self, hostfilter=None):
"""
List of t_hosts
:param hostfilter: Valid hostfilter or None
:return: [(host.id, host.f_ipaddr, host.f_macaddr, host.f_hostname,
host.f_netbios_name, db.auth_user[host.f_engineer].username, host.f_asset_group,
host.f_confirmed) ...]
"""
return self.send.host_list(hostfilter)
def add(self, f_ipaddr, f_macaddr, f_hostname, f_netbios_name, f_engineer, f_asset_group, f_confirmed):
"""
Add a t_hosts record
:param f_ipaddr: IP address
:param f_macaddr: MAC Address
:param f_hostname: Hostname
:param f_netbios_name: NetBIOS Name
:param f_engineer: Engineer username
:param f_asset_group: Asset group
:param f_confirmed: Confirmed boolean
:return: (True/False, t_hosts.id or response message)
"""
return self.send.host_add(f_ipaddr, f_macaddr, f_hostname, f_netbios_name, f_engineer,
f_asset_group, f_confirmed)
def info(self, host=None):
"""
Info about a t_hosts record
:param host: t_hosts.id or IP Address
:return: t_hosts fields
"""
return self.send.host_info(host)
def detail(self, host=None):
"""
Detailed information about a host, not just t_hosts record
:param host: t_hosts.id or IP Address
:return: Dictionary of t_hosts record, additional points, services, accounts, vulns and snmp
"""
return self.send.host_details(host)
def delete(self, host=None, ipaddr_list=None):
"""
Delete a t_hosts record or list of records
:param host: t_hosts.id or list of ids
:param ipaddr_list: IP Address or list of IP Addresses
:return: [host_recs deleted, ip_recs deleted]
"""
return self.send.host_del(host, ipaddr_list)
|
class Hosts(ConnectorJSONRPC):
def list(self, hostfilter=None):
'''
List of t_hosts
:param hostfilter: Valid hostfilter or None
:return: [(host.id, host.f_ipaddr, host.f_macaddr, host.f_hostname,
host.f_netbios_name, db.auth_user[host.f_engineer].username, host.f_asset_group,
host.f_confirmed) ...]
'''
pass
def add(self, f_ipaddr, f_macaddr, f_hostname, f_netbios_name, f_engineer, f_asset_group, f_confirmed):
'''
Add a t_hosts record
:param f_ipaddr: IP address
:param f_macaddr: MAC Address
:param f_hostname: Hostname
:param f_netbios_name: NetBIOS Name
:param f_engineer: Engineer username
:param f_asset_group: Asset group
:param f_confirmed: Confirmed boolean
:return: (True/False, t_hosts.id or response message)
'''
pass
def info(self, host=None):
'''
Info about a t_hosts record
:param host: t_hosts.id or IP Address
:return: t_hosts fields
'''
pass
def detail(self, host=None):
'''
Detailed information about a host, not just t_hosts record
:param host: t_hosts.id or IP Address
:return: Dictionary of t_hosts record, additional points, services, accounts, vulns and snmp
'''
pass
def delete(self, host=None, ipaddr_list=None):
'''
Delete a t_hosts record or list of records
:param host: t_hosts.id or list of ids
:param ipaddr_list: IP Address or list of IP Addresses
:return: [host_recs deleted, ip_recs deleted]
'''
pass
| 6 | 5 | 10 | 1 | 2 | 7 | 1 | 2.83 | 1 | 0 | 0 | 0 | 5 | 0 | 5 | 7 | 55 | 9 | 12 | 6 | 6 | 34 | 11 | 6 | 5 | 1 | 1 | 0 | 5 |
144,306 |
KvasirSecurity/kvasirapi-python
|
KvasirSecurity_kvasirapi-python/KvasirAPI/jsonrpc/evidence.py
|
KvasirAPI.jsonrpc.evidence.Evidence
|
class Evidence(ConnectorJSONRPC):
"""Evidence"""
def list(self, host=None):
"""
List db.t_evidence records
:param query: A record id, ipv4, ipv6, hostname or None for all records
:returns t_evidence.id:
:returns t_evidence.f_type:
:returns t_evidence.f_other_type:
:returns t_evidence.f_text:
:returns t_evidence.f_evidence:
:returns t_evidence.f_filename:
"""
return self.send.evidence_list(host)
def download(self, filename=None):
"""
Download a specific evidence file
:param filename: Filename to download
:return: File content
"""
return self.send.evidence_download(filename)
def add(self, host, filename, data, f_type, f_other_type=None, f_text=''):
"""
Add evidence
:param host: db.t_hosts.id
:param filename: Filename
:param data: Content of file
:param f_type: Evidence type
:param f_other_type: If f_type is 'Other' what type it is
:param f_text: Text information about the evidence
:return: (True/False, response message)
"""
return self.send.evidence_add(host, filename, data, f_type, f_other_type, f_text)
def delete(self, evidence_records=None):
"""
Delete evidence record(s)
:param evidence_records: [db.t_evidence.id, db.t_evidence.id, ... ]
:return: List of (True/False, response message) for each evidence
"""
return self.send.evidence_del(evidence_records)
|
class Evidence(ConnectorJSONRPC):
'''Evidence'''
def list(self, host=None):
'''
List db.t_evidence records
:param query: A record id, ipv4, ipv6, hostname or None for all records
:returns t_evidence.id:
:returns t_evidence.f_type:
:returns t_evidence.f_other_type:
:returns t_evidence.f_text:
:returns t_evidence.f_evidence:
:returns t_evidence.f_filename:
'''
pass
def download(self, filename=None):
'''
Download a specific evidence file
:param filename: Filename to download
:return: File content
'''
pass
def add(self, host, filename, data, f_type, f_other_type=None, f_text=''):
'''
Add evidence
:param host: db.t_hosts.id
:param filename: Filename
:param data: Content of file
:param f_type: Evidence type
:param f_other_type: If f_type is 'Other' what type it is
:param f_text: Text information about the evidence
:return: (True/False, response message)
'''
pass
def delete(self, evidence_records=None):
'''
Delete evidence record(s)
:param evidence_records: [db.t_evidence.id, db.t_evidence.id, ... ]
:return: List of (True/False, response message) for each evidence
'''
pass
| 5 | 5 | 11 | 1 | 2 | 8 | 1 | 3.44 | 1 | 0 | 0 | 0 | 4 | 0 | 4 | 6 | 48 | 8 | 9 | 5 | 4 | 31 | 9 | 5 | 4 | 1 | 1 | 0 | 4 |
144,307 |
KvasirSecurity/kvasirapi-python
|
KvasirSecurity_kvasirapi-python/KvasirAPI/jsonrpc/snmp.py
|
KvasirAPI.jsonrpc.snmp.SNMP
|
class SNMP(ConnectorJSONRPC):
"""SNMP"""
def list_communities(self, hostfilter=None):
"""
Returns a list of all known SNMP community strings
:param hostfilter: Valid hostfilter or None
:return: list of community strings
"""
return self.send.snmp_list_communities(hostfilter)
def list(self, community=None, hostfilter=None, host=None):
"""
Returns a list of SNMP information for a community, hostfilter or host
:param snmpstring: A specific SNMP string to list
:param hostfilter: Valid hostfilter or None
:param host: t_hosts.id or t_hosts.f_ipaddr
:return: [ [ record_id, ipaddr, hostname, community, access, version ] ... ]
"""
return self.send.snmp_list(community, hostfilter, host)
def add(self, host=None, f_community=None, f_access=None, f_version=None):
"""
Add an SNMP community string to a host
:param host: t_hosts.id or t_hosts.f_ipaddr
:param f_community: Community string to add
:param f_access: READ or WRITE
:param f_version: v1, v2c or v3
:return: (True/False, t_snmp.id/Error string)
"""
return self.send.snmp_add(host, f_community, f_access, f_version)
def delete(self, record=None):
"""
Delete a t_snmp record
:param record: [db.t_snmp.id, db.t_snmp_id, ...]
:return: [(True/False, Response string) ...]
"""
return self.send.snmp_del(record)
def rpt_table(self, hostfilter=None):
"""
Builds a report-like table of community strings, counts and permissions
:param hostfilter: Valid hostfilter or None
:return: ([t_snmp.f_community, count, t_snmp.f_access] ...)
"""
return self.send.snmp_rpt_table(hostfilter)
|
class SNMP(ConnectorJSONRPC):
'''SNMP'''
def list_communities(self, hostfilter=None):
'''
Returns a list of all known SNMP community strings
:param hostfilter: Valid hostfilter or None
:return: list of community strings
'''
pass
def list_communities(self, hostfilter=None):
'''
Returns a list of SNMP information for a community, hostfilter or host
:param snmpstring: A specific SNMP string to list
:param hostfilter: Valid hostfilter or None
:param host: t_hosts.id or t_hosts.f_ipaddr
:return: [ [ record_id, ipaddr, hostname, community, access, version ] ... ]
'''
pass
def add(self, host=None, f_community=None, f_access=None, f_version=None):
'''
Add an SNMP community string to a host
:param host: t_hosts.id or t_hosts.f_ipaddr
:param f_community: Community string to add
:param f_access: READ or WRITE
:param f_version: v1, v2c or v3
:return: (True/False, t_snmp.id/Error string)
'''
pass
def delete(self, record=None):
'''
Delete a t_snmp record
:param record: [db.t_snmp.id, db.t_snmp_id, ...]
:return: [(True/False, Response string) ...]
'''
pass
def rpt_table(self, hostfilter=None):
'''
Builds a report-like table of community strings, counts and permissions
:param hostfilter: Valid hostfilter or None
:return: ([t_snmp.f_community, count, t_snmp.f_access] ...)
'''
pass
| 6 | 6 | 9 | 1 | 2 | 6 | 1 | 2.82 | 1 | 0 | 0 | 0 | 5 | 0 | 5 | 7 | 51 | 9 | 11 | 6 | 5 | 31 | 11 | 6 | 5 | 1 | 1 | 0 | 5 |
144,308 |
KxSystems/pyq
|
KxSystems_pyq/src/pyq/tests/test_k.py
|
pyq.tests.test_k.ListTestCase
|
class ListTestCase(K_TestCase):
def test_kp(self):
self.assert_k_is(kp("abc"), '"abc"')
def test_I(self):
self.assert_k_is(I([]), '`int$()')
self.assert_k_is(I([1, 2]), '1 2i')
def test_J(self):
self.assert_k_is(J([]), '`long$()')
self.assert_k_is(J([1, 2]), '1 2j')
def test_F(self):
self.assert_k_is(F([]), '`float$()')
self.assert_k_is(F([1., 2.]), '1 2f')
def test_S(self):
self.assert_k_is(S([]), '`symbol$()')
self.assert_k_is(S(['aa', 'bb', u'uu', None]), '`aa`bb`uu`')
def test_K(self):
self.assert_k_is(K([]), '()')
self.assert_k_is(K([ki(0), kf(1)]), '(0i;1f)')
|
class ListTestCase(K_TestCase):
def test_kp(self):
pass
def test_I(self):
pass
def test_J(self):
pass
def test_F(self):
pass
def test_S(self):
pass
def test_K(self):
pass
| 7 | 0 | 3 | 0 | 3 | 0 | 1 | 0 | 1 | 0 | 0 | 0 | 6 | 0 | 6 | 79 | 23 | 5 | 18 | 7 | 11 | 0 | 18 | 7 | 11 | 1 | 3 | 0 | 6 |
144,309 |
KxSystems/pyq
|
KxSystems_pyq/src/pyq/tests/test_k.py
|
pyq.tests.test_k.K_TestCase
|
class K_TestCase(unittest.TestCase):
def assert_k_is(self, x, y):
test = k(0, '~[%s;]' % y, x).inspect(b'g')
if not test:
raise self.failureException(kstr(x) + ' <> ' + y)
|
class K_TestCase(unittest.TestCase):
def assert_k_is(self, x, y):
pass
| 2 | 0 | 4 | 0 | 4 | 0 | 2 | 0 | 1 | 0 | 0 | 8 | 1 | 0 | 1 | 73 | 5 | 0 | 5 | 3 | 3 | 0 | 5 | 3 | 3 | 2 | 2 | 1 | 2 |
144,310 |
KxSystems/pyq
|
KxSystems_pyq/src/pyq/tests/test_k.py
|
pyq.tests.test_k.ArrayStructTestCase
|
class ArrayStructTestCase(unittest.TestCase):
def test_type(self):
for x in [q('1 2 3'), q('1')]:
s = x.__array_struct__
if _PY3K:
self.assertEqual(type(s).__name__, 'PyCapsule')
else:
self.assertEqual(type(s).__name__, 'PyCObject')
def test_error(self):
x = q('()!()')
self.assertRaises(AttributeError, lambda: x.__array_struct__)
|
class ArrayStructTestCase(unittest.TestCase):
def test_type(self):
pass
def test_error(self):
pass
| 3 | 0 | 5 | 0 | 5 | 0 | 2 | 0 | 1 | 2 | 0 | 0 | 2 | 0 | 2 | 74 | 12 | 1 | 11 | 6 | 8 | 0 | 10 | 6 | 7 | 3 | 2 | 2 | 4 |
144,311 |
KxSystems/pyq
|
KxSystems_pyq/src/pyq/tests/test_k.py
|
pyq.tests.test_k.AtomTestCase
|
class AtomTestCase(K_TestCase):
def test_ka(self):
self.assert_k_is(ka(-_k.KB, 1), '1b')
self.assert_k_is(ka(-_k.KJ, 1), '1j')
self.assert_k_is(ktj(-_k.KP, 0), '2000.01.01D00:00:00.000000000')
self.assert_k_is(ktj(-_k.KN, 0), '0D00:00:00.000000000')
def test_kb(self):
self.assert_k_is(kb(1), '1b')
self.assert_k_is(kb(2 ** 70), '1b')
self.assert_k_is(kb(True), '1b')
self.assert_k_is(kb(0), '0b')
self.assert_k_is(kb(False), '0b')
self.assert_k_is(kb(None), '0b')
def test_kg(self):
self.assert_k_is(kg(1), '0x01')
def test_kh(self):
self.assert_k_is(kh(1), '1h')
def test_ki(self):
self.assert_k_is(ki(1), '1i')
def test_kj(self):
self.assert_k_is(kj(1), '1j')
self.assert_k_is(kj(9223372036854775806), '9223372036854775806j')
def test_ke(self):
self.assert_k_is(ke(1), '1e')
def test_kf(self):
self.assert_k_is(kf(1), '1f')
def test_kc(self):
self.assert_k_is(kc(b'x'), '"x"')
self.assert_k_is(kc('x'), '"x"')
def test_ks(self):
self.assert_k_is(ks('abc'), '`abc')
def test_km(self):
self.assert_k_is(km(1), '2000.02m')
def test_kd(self):
self.assert_k_is(kd(1), '2000.01.02')
def test_kzz(self):
self.assert_k_is(kzz(datetime(2000, 1, 2, 10, 11, 12, 1000)),
'2000.01.02T10:11:12.001')
def test_kpz(self):
self.assert_k_is(kpz(datetime(2000, 1, 2, 10, 11, 12, 1000)),
'2000.01.02D10:11:12.001000000')
def test_knz(self):
self.assert_k_is(knz(timedelta(100, 20, 1000)),
'100D00:00:20.001000000')
def test_kz(self):
self.assert_k_is(kz(1.5), '2000.01.02T12:00:00.000')
def test_ku(self):
self.assert_k_is(ku(1), '00:01')
def test_kv(self):
self.assert_k_is(kv(1), '00:00:01')
def test_kt(self):
self.assert_k_is(kt(1), '00:00:00.001')
def test_id(self):
x, y = ki(1), ki(1)
self.assertNotEqual(x._id(), y._id())
|
class AtomTestCase(K_TestCase):
def test_ka(self):
pass
def test_kb(self):
pass
def test_kg(self):
pass
def test_kh(self):
pass
def test_ki(self):
pass
def test_kj(self):
pass
def test_ke(self):
pass
def test_kf(self):
pass
def test_kc(self):
pass
def test_ks(self):
pass
def test_km(self):
pass
def test_kd(self):
pass
def test_kzz(self):
pass
def test_kpz(self):
pass
def test_knz(self):
pass
def test_kzz(self):
pass
def test_ku(self):
pass
def test_kv(self):
pass
def test_kt(self):
pass
def test_id(self):
pass
| 21 | 0 | 3 | 0 | 3 | 0 | 1 | 0 | 1 | 2 | 0 | 0 | 20 | 0 | 20 | 93 | 74 | 19 | 55 | 22 | 34 | 0 | 52 | 22 | 31 | 1 | 3 | 0 | 20 |
144,312 |
KxSystems/pyq
|
KxSystems_pyq/src/pyq/ptk.py
|
pyq.ptk.QCompleter
|
class QCompleter(Completer):
"""Completer for the q language"""
def __init__(self):
namespace = q(r'\d')
res = q('.Q.res')
dot_q = q('1_key .q')
self.path_completer = PathCompleter()
self.words_info = [(list(res), 'k'),
(list(dot_q), 'q'),
(list(q.key(namespace)), str(namespace))]
def get_completions(self, document, complete_event):
"""Yield completions"""
# Detect a file handle
m = HSYM_RE.match(document.text_before_cursor)
if m:
text = m.group(1)
doc = Document(text, len(text))
for c in self.path_completer.get_completions(doc, complete_event):
yield c
else:
# Get word/text before cursor.
word_before_cursor = document.get_word_before_cursor(False)
for words, meta in self.words_info:
for a in words:
if a.startswith(word_before_cursor):
yield Completion(a, -len(word_before_cursor),
display_meta=meta)
|
class QCompleter(Completer):
'''Completer for the q language'''
def __init__(self):
pass
def get_completions(self, document, complete_event):
'''Yield completions'''
pass
| 3 | 2 | 13 | 0 | 11 | 2 | 4 | 0.17 | 1 | 4 | 0 | 0 | 2 | 2 | 2 | 2 | 29 | 2 | 23 | 15 | 20 | 4 | 19 | 15 | 16 | 6 | 1 | 4 | 7 |
144,313 |
KxSystems/pyq
|
KxSystems_pyq/src/pyq/tests/test_k.py
|
pyq.tests.test_k.ReprTestCase
|
class ReprTestCase(unittest.TestCase):
def test_pass(self):
x = 'abc'
self.assertEqual(repr(ks(x)), "k('`abc')")
x = b'abc'
self.assertEqual(repr(kp(x)), "k('\"abc\"')")
x = b'a'
self.assertEqual(repr(kc(x)), "k('\"a\"')")
def test_misc(self):
self.assertEqual(repr(kb(1)), "k('1b')")
self.assertEqual(repr(kh(1)), "k('1h')")
if Q_VERSION >= 3:
self.assertEqual(repr(ki(1)), "k('1i')")
self.assertEqual(repr(kj(1)), "k('1')")
else:
self.assertEqual(repr(ki(1)), "k('1')")
self.assertEqual(repr(kj(1)), "k('1j')")
self.assertEqual(repr(kf(1)), "k('1f')")
|
class ReprTestCase(unittest.TestCase):
def test_pass(self):
pass
def test_misc(self):
pass
| 3 | 0 | 9 | 0 | 9 | 0 | 2 | 0 | 1 | 0 | 0 | 0 | 2 | 0 | 2 | 74 | 19 | 1 | 18 | 4 | 15 | 0 | 17 | 4 | 14 | 2 | 2 | 1 | 3 |
144,314 |
KxSystems/pyq
|
KxSystems_pyq/src/pyq/cmd.py
|
pyq.cmd.Cmd
|
class Cmd(_cmd.Cmd, object):
"""q REPL"""
_prompt = 'q{ns})'
@property
def prompt(self):
code = _prompt_color()
prompt = self._prompt.format(ns=_prompt_namespace())
return _colorize(code, prompt)
def precmd(self, line):
"""Support for help"""
if line.startswith('help'):
if not q("`help in key`.q"):
try:
q("\\l help.q")
except kerr:
return '-1"no help available - install help.q"'
if line == 'help':
line += "`"
return line
def onecmd(self, line):
"""Interpret the line"""
if line == '\\':
return True
elif line == 'EOF':
print('\r', end='')
return True
else:
try:
v = q(line)
except kerr as e:
print("'%s" % e.args[0])
else:
if v != q('::'):
v.show()
return False
if ptk:
cmdloop = ptk.cmdloop
|
class Cmd(_cmd.Cmd, object):
'''q REPL'''
@property
def prompt(self):
pass
def precmd(self, line):
'''Support for help'''
pass
def onecmd(self, line):
'''Interpret the line'''
pass
| 5 | 3 | 10 | 0 | 10 | 1 | 4 | 0.09 | 2 | 0 | 0 | 0 | 3 | 0 | 3 | 21 | 41 | 4 | 34 | 11 | 29 | 3 | 31 | 9 | 27 | 5 | 1 | 3 | 11 |
144,315 |
KxSystems/pyq
|
KxSystems_pyq/src/pyq/tests/test_k.py
|
pyq.tests.test_k.ErrorTestCase
|
class ErrorTestCase(unittest.TestCase):
def test_simple(self):
self.assertRaises(_k.error, q, "1+`")
self.assertRaises(_k.error, q("1+"), ks(''))
self.assertRaises(_k.error, q("+"), ki(1), ks(''))
def test_nested(self):
self.assertRaises(_k.error, q, "{{{'`xyz}0}0}", ki(0))
|
class ErrorTestCase(unittest.TestCase):
def test_simple(self):
pass
def test_nested(self):
pass
| 3 | 0 | 3 | 0 | 3 | 0 | 1 | 0 | 1 | 0 | 0 | 0 | 2 | 0 | 2 | 74 | 8 | 1 | 7 | 3 | 4 | 0 | 7 | 3 | 4 | 1 | 2 | 0 | 2 |
144,316 |
KxSystems/pyq
|
KxSystems_pyq/src/pyq/tests/test_k.py
|
pyq.tests.test_k.IterTestCase
|
class IterTestCase(K_TestCase):
def test_bool(self):
self.assertEqual(list(k(0, '101b')), [True, False, True])
def test_byte(self):
self.assertEqual(list(k(0, '0x010203')), [1, 2, 3])
def test_char(self):
self.assertEqual(list(kp('abc')), ['a', 'b', 'c'])
def test_short(self):
self.assertEqual(list(k(0, '1 2 3h')), [1, 2, 3])
def test_int(self):
x = [1, 2, 3, None]
self.assertEqual(list(I(x)), x)
def test_long(self):
self.assertEqual(list(k(0, '1 2 3j')), [1, 2, 3])
def test_date(self):
self.assertEqual(list(k(0, '"d"$0 1 2')),
[date(2000, 1, d) for d in [1, 2, 3]])
self.assertEqual(list(k(0, '-0W 0N 0Wd')),
[date(1, 1, 1), None, date(9999, 12, 31), ])
def test_month(self):
self.assertEqual(list(k(0, '"m"$0 1 2')),
[date(2000, m, 1) for m in [1, 2, 3]])
self.assertEqual(list(k(0, '-0W 0N 0Wm')),
[date(1, 1, 1), None, date(9999, 12, 1), ])
def test_datetime(self):
self.assertEqual(list(k(0, '"z"$0.5 1.5 2.5')),
[datetime(2000, 1, d, 12) for d in [1, 2, 3]])
self.assertEqual(list(k(0, '-0w 0n 0wz')), [datetime(1, 1, 1), None,
datetime(9999, 12, 31, 23,
59, 59,
999999), ])
def test_time(self):
self.assertEqual(list(k(0, '"t"$0 1 2 0N')),
[time(0, 0, 0, m * 1000) for m in range(3)] + [None])
def test_minute(self):
self.assertEqual(list(k(0, '"u"$0 1 2 0N')),
[time(0, m, 0) for m in range(3)] + [None])
def test_second(self):
self.assertEqual(list(k(0, '"v"$0 1 2')),
[time(0, 0, s) for s in range(3)])
def test_symbol(self):
x = ['a', 'b', 'c']
self.assertEqual(list(S(x)), x)
def test_float(self):
x = [1.2, 2.3, 3.4]
self.assertEqual(list(F(x)), x)
def test_generic(self):
x = kf(1.2), ki(2), ks('xyz')
self.assertEqual([kstr(i) for i in K(x)],
[kstr(i) for i in x])
def test_dict(self):
d = k(0, '`a`b`c!1 2 3')
self.assertEqual(list(d), list('abc'))
def test_table(self):
t = k(0, '([]a:`X`Y`Z;b:"xyz";c:1 2 3)')
d = ['`a`b`c!(`X;"x";1)',
'`a`b`c!(`Y;"y";2)',
'`a`b`c!(`Z;"z";3)', ]
for x, y in zip(t, d):
self.assert_k_is(x, y)
if Q_VERSION >= 3:
def test_guid(self):
s = '0x16151413121110090807060504030201'
x = int(s, 16)
self.assert_k_is(kguid(x), '0x0 sv ' + s)
self.assertEqual([x], list(k(0, 'enlist 0x0 sv ' + s)))
|
class IterTestCase(K_TestCase):
def test_bool(self):
pass
def test_byte(self):
pass
def test_char(self):
pass
def test_short(self):
pass
def test_int(self):
pass
def test_long(self):
pass
def test_date(self):
pass
def test_month(self):
pass
def test_datetime(self):
pass
def test_time(self):
pass
def test_minute(self):
pass
def test_second(self):
pass
def test_symbol(self):
pass
def test_float(self):
pass
def test_generic(self):
pass
def test_dict(self):
pass
def test_table(self):
pass
def test_guid(self):
pass
| 19 | 0 | 4 | 0 | 4 | 0 | 1 | 0 | 1 | 7 | 0 | 0 | 18 | 0 | 18 | 91 | 83 | 17 | 66 | 29 | 47 | 0 | 52 | 29 | 33 | 2 | 3 | 1 | 19 |
144,317 |
KxSystems/pyq
|
KxSystems_pyq/src/pyq/tests/test_k.py
|
pyq.tests.test_k.JoinTestCase
|
class JoinTestCase(K_TestCase):
def test_any(self):
x = ktn(0, 0)
x._ja(ktj(101, 0))
x._ja(ktj(101, 0))
self.assert_k_is(x, '(::; ::)')
def test_bool(self):
x = q('10b')
x._ja(True)
y = '101b'
self.assert_k_is(x, y)
def test_byte(self):
x = q('0x0102')
x._ja(3)
y = '0x010203'
self.assert_k_is(x, y)
def test_short(self):
x = q('1 2h')
x._ja(3)
x._ja(-1)
y = '1 2 3 -1h'
self.assert_k_is(x, y)
def test_int(self):
x = q('1 2')
x._ja(3)
x._ja(-1)
y = '1 2 3 -1'
self.assert_k_is(x, y)
def test_long(self):
x = q('1 2j')
x._ja(3)
x._ja(-1)
y = '1 2 3 -1j'
self.assert_k_is(x, y)
def test_real(self):
x = q('1 2e')
x._ja(3)
x._ja(-1)
y = '1 2 3 -1e'
self.assert_k_is(x, y)
def test_float(self):
x = q('1 2f')
x._ja(3)
x._ja(-1)
y = '1 2 3 -1f'
self.assert_k_is(x, y)
def test_str(self):
x = q('"ab"')
x._ja(b'c')
y = '"abc"'
self.assert_k_is(x, y)
def test_sym(self):
x = q('`a`b')
x._ja(b'c')
y = '`a`b`c'
self.assert_k_is(x, y)
|
class JoinTestCase(K_TestCase):
def test_any(self):
pass
def test_bool(self):
pass
def test_byte(self):
pass
def test_short(self):
pass
def test_int(self):
pass
def test_long(self):
pass
def test_real(self):
pass
def test_float(self):
pass
def test_str(self):
pass
def test_sym(self):
pass
| 11 | 0 | 6 | 0 | 6 | 0 | 1 | 0 | 1 | 0 | 0 | 0 | 10 | 0 | 10 | 83 | 65 | 9 | 56 | 30 | 45 | 0 | 56 | 30 | 45 | 1 | 3 | 0 | 10 |
144,318 |
KxSystems/pyq
|
KxSystems_pyq/src/pyq/__init__.py
|
pyq._Q
|
class _Q(object):
"""a portal to kdb+"""
def __init__(self):
object.__setattr__(self, '_cmd', None)
object.__setattr__(self, '_q_names',
[name for name, _ in _q_builtins()])
def __call__(self, m=None, *args):
"""Execute q code."""
try:
return K._k(0, m, *map(K, args))
except TypeError:
if m is not None:
raise
if self._cmd is None:
from .cmd import Cmd
object.__setattr__(self, '_cmd', Cmd())
self._cmd.cmdloop()
def __getattr__(self, attr, _k=K._k):
try:
return _k(0, attr.rstrip('_'))
except kerr:
pass
raise AttributeError(attr)
def __setattr__(self, attr, value):
self("@[`.;;:;]", attr, value)
def __delattr__(self, attr):
k = K._k
k(0, "delete %s from `." % attr)
def __dir__(self):
return self._q_names + list(self.key('.'))
|
class _Q(object):
'''a portal to kdb+'''
def __init__(self):
pass
def __call__(self, m=None, *args):
'''Execute q code.'''
pass
def __getattr__(self, attr, _k=K._k):
pass
def __setattr__(self, attr, value):
pass
def __delattr__(self, attr):
pass
def __dir__(self):
pass
| 7 | 2 | 5 | 0 | 5 | 0 | 2 | 0.07 | 1 | 5 | 1 | 0 | 6 | 0 | 6 | 6 | 36 | 6 | 28 | 10 | 20 | 2 | 27 | 9 | 19 | 4 | 1 | 2 | 10 |
144,319 |
KxSystems/pyq
|
/Users/umroot/Documents/PhD_works/PhD-Core-Contents/Class-level-dataset-curation/data/git_repos_for_analysis/KxSystems_pyq/src/pyq/__init__.py
|
pyq._gendescriptors.CharDesc
|
class CharDesc:
def __get__(self, instance, owner):
if instance is None:
return make_chars
# Make sure dict keys and table columns have priority over casts
name = 'char'
if instance._t == 98 and name in instance.cols:
return instance[name]
if instance._t == 99: # keyed table or dict
key = instance.key
if key._t == 11 and name in key:
return instance[name]
if key._t == 98 and name in instance.cols:
return instance.exec_(name)
return cls._k(0, '`char$', instance)
|
class CharDesc:
def __get__(self, instance, owner):
pass
| 2 | 0 | 15 | 1 | 13 | 2 | 6 | 0.14 | 0 | 0 | 0 | 0 | 1 | 0 | 1 | 1 | 16 | 1 | 14 | 4 | 12 | 2 | 14 | 4 | 12 | 6 | 0 | 2 | 6 |
144,320 |
KxSystems/pyq
|
KxSystems_pyq/src/pyq/tests/test_k.py
|
pyq.tests.test_k.CallsTestCase
|
class CallsTestCase(K_TestCase):
def test_dot(self):
x = k(0, '+')._dot(I([1, 2]))
y = '3i'
self.assert_k_is(x, y)
self.assertRaises(_k.error, q('+')._dot, q('``'))
def test_a0(self):
x = k(0, '{1}')._a0()
self.assert_k_is(x, '1')
def test_a1(self):
x = k(0, 'neg')._a1(ki(1))
y = '-1i'
self.assert_k_is(x, y)
def test_call(self):
f = q('{5}')
x = ki(42)
self.assert_k_is(f(), '5')
self.assert_k_is(f(x), '5')
self.assertRaises(_k.error, f, x, x)
|
class CallsTestCase(K_TestCase):
def test_dot(self):
pass
def test_a0(self):
pass
def test_a1(self):
pass
def test_call(self):
pass
| 5 | 0 | 5 | 0 | 5 | 0 | 1 | 0 | 1 | 0 | 0 | 0 | 4 | 0 | 4 | 77 | 22 | 3 | 19 | 12 | 14 | 0 | 19 | 12 | 14 | 1 | 3 | 0 | 4 |
144,321 |
KxSystems/pyq
|
/Users/umroot/Documents/PhD_works/PhD-Core-Contents/Class-level-dataset-curation/data/git_repos_for_analysis/KxSystems_pyq/src/pyq/__init__.py
|
pyq._gendescriptors.Desc
|
class Desc:
def __init__(self, code, char, name, vector, scalar):
self.code = cls._kh(code)
self.char = char
self.name = name
self.vector = vector
self.scalar = scalar
def make_constructor(self):
def constructor(x):
# If x is already K - check the type and either
# pass it through or cast to the type needed.
if isinstance(x, K):
if x.type.abs == self.code:
return x
else:
return cls._k(0, '$', self.code, x)
if isinstance(x, _Mapping):
return cls._xD(cls(x.keys()), constructor(x.values()))
try:
return self.vector(x)
except TypeError:
pass
try:
return self.scalar(x)
except TypeError:
return cls._from_sequence(x, constructor)
constructor.__name__ = 'K.' + self.name
if self.code > 4 and int(self.code) != 11:
constructor.inf = q('0W' + self.char)
constructor.na = q('0N' + self.char)
elif self.name == 'guid':
constructor.na = q('0Ng')
return constructor
def __get__(self, instance, owner):
if instance is None:
return self.make_constructor()
# Make sure dict keys and table columns have priority over casts
name = self.name
if instance._t == 98 and name in instance.cols:
return instance[name]
if instance._t == 99: # keyed table or dict
key = instance.key
if key._t == 11 and name in key:
return instance[name]
if key._t == 98 and name in instance.cols:
return instance.exec_(name)
return cls._k(0, '$', self.code, instance)
|
class Desc:
def __init__(self, code, char, name, vector, scalar):
pass
def make_constructor(self):
pass
def constructor(x):
pass
def __get__(self, instance, owner):
pass
| 5 | 0 | 17 | 1 | 15 | 2 | 4 | 0.09 | 0 | 2 | 0 | 0 | 3 | 5 | 3 | 3 | 52 | 5 | 44 | 12 | 39 | 4 | 42 | 12 | 37 | 6 | 0 | 2 | 16 |
144,322 |
KxSystems/pyq
|
KxSystems_pyq/src/pyq/__init__.py
|
pyq.K
|
class K(_K):
"""proxies for kdb+ objects
>>> q('2005.01.01 2005.12.04')
k('2005.01.01 2005.12.04')
Iteration over simple lists produces python objects
>>> list(q("`a`b`c`d"))
['a', 'b', 'c', 'd']
Iteration over q tables produces q dictionaries
>>> list(q("([]a:`x`y`z;b:1 2 3)"))
[k('`a`b!(`x;1)'), k('`a`b!(`y;2)'), k('`a`b!(`z;3)')]
Iteration over a q dictionary iterates over its key
>>> list(q('`a`b!1 2'))
['a', 'b']
as a consequence, iteration over a keyed table is the same as
iteration over its key table
>>> list(q("([a:`x`y`z]b:1 2 3)"))
[k('(,`a)!,`x'), k('(,`a)!,`y'), k('(,`a)!,`z')]
Callbacks into python
>>> def f(x, y):
... return x + y
>>> q('{[f]f(1;2)}', f)
k('3')
Buffer protocol
The following session illustrates how buffer protocol implemented by
K objects can be used to write data from Python streams directly yo kdb+.
Create a list of chars in kdb+
>>> x = kp('xxxxxx')
Open a pair of file descriptors
>>> r, w = os.pipe()
Write 6 bytes to the write end
>>> os.write(w, b'abcdef')
6
Read from the read-end into x
>>> f = os.fdopen(r, mode='rb')
>>> f.readinto(x)
6
Now x contains the bytes that were sent through the pipe
>>> x
k('"abcdef"')
Close the descriptors and the stream
>>> os.close(w); f.close()
Low level interface
The K type provides a set of low level functions that are similar
to the C API provided by the `k.h header <http://kx.com/q/c/c/k.h>`_.
The C API functions that return K objects in C are implemented as
class methods that return instances of K type.
Atoms
>>> K._kb(True), K._kg(5), K._kh(42), K._ki(-3), K._kj(2**40)
(k('1b'), k('0x05'), k('42h'), k('-3i'), k('1099511627776'))
>>> K._ke(3.5), K._kf(1.0), K._kc(b'x'), K._ks('xyz')
(k('3.5e'), k('1f'), k('"x"'), k('`xyz'))
>>> K._kd(0), K._kz(0.0), K._kt(0)
(k('2000.01.01'), k('2000.01.01T00:00:00.000'), k('00:00:00.000'))
Tables and dictionaries
>>> x = K._xD(k('`a`b`c'), k('1 2 3')); x, K._xT(x)
(k('`a`b`c!1 2 3'), k('+`a`b`c!1 2 3'))
Keyed table
>>> t = K._xD(K._xT(K._xD(k(",`a"), k(",1 2 3"))),
... K._xT(K._xD(k(",`b"), k(",10 20 30"))))
>>> K._ktd(t)
k('+`a`b!(1 2 3;10 20 30)')
"""
# Lighten the K objects by preventing the automatic creation of
# __dict__ and __weakref__ for each instance.
__slots__ = ()
# Helper methods for use in C implementation of __new__
def _set_mask(self, mask):
return q("{?[y;((),x)0N;x]}", self, mask)
@classmethod
def _from_record_array(cls, x):
fields = [f for f, t in x.dtype.descr]
k = q('!', list(fields), [K(x[f]) for f in fields])
if x.ndim:
k = k.flip
return k
@classmethod
def _from_sequence(cls, x, elm=None):
r = cls._ktn(0, 0)
g = iter(x)
try:
i = next(g)
except StopIteration:
return r
en = _K_k(0, 'enlist')
r._ja(en)
if elm is None:
elm = cls
for i in itertools.chain([i], g):
i = elm(i)
# Symbols and lists require special treatment
if i._t in (-11, 11, 0):
i = i.enlist
r._ja(i)
return r.eval
@classmethod
def _convert(cls, x):
for t in type(x).mro():
c = converters.get(t)
if c is not None:
return c(x)
return cls._from_sequence(x)
def __reduce_ex__(self, proto):
x = self._b9(1, self)
b = memoryview(x).tobytes()
return (d9, (b,))
def __getitem__(self, x):
"""
>>> k("10 20 30 40 50")[k("1 3")]
k('20 40')
>>> k("`a`b`c!1 2 3")['b']
2
"""
try:
return _K.__getitem__(self, x)
except (TypeError, NotImplementedError):
pass
try:
start, stop, step = x.indices(len(self))
except AttributeError:
i = K(x)
if self._t == 99 and i._t < 0:
return self.value[self._k(0, "?", self.key, i)]
else:
return self._k(0, "@", self, i)
if step == 1:
return self._k(0, "sublist", self._J([start, stop - start]), self)
# NB: .indices() cannot return step=0.
i = start + step * q.til(max(0, (stop - start) // step))
return self._k(0, "{$[99=type x;(key[x]y)!value[x]y;x y]}", self, i)
def __getattr__(self, a):
"""table columns can be accessed via dot notation
>>> q("([]a:1 2 3; b:10 20 30)").a
k('1 2 3')
"""
t = self._t
if t == 98 and not a.startswith('_'):
return self._k(0, '{x`%s}' % a, self)
if t == 99:
if self._k(0, "{11h~type key x}", self):
if a == 'items':
# NB: Workaround for a bug in OrderedDict in Python 3.5.
# See http://bugs.python.org/issue27576 for details.
raise AttributeError
return self._k(0, '{x`%s}' % a, self)
return self._k(0, '{(0!x)`%s}' % a, self)
if 12 <= abs(t) < 20:
try:
return self._k(0, "`%s$" % a, self)
except kerr:
pass
raise AttributeError(a)
_fields = " g@ ghijefgsjiifjiii"
def __int__(self):
"""converts K scalars to python int
>>> [int(q(x)) for x in '1b 2h 3 4e `5 6.0 2000.01.08'.split()]
[1, 2, 3, 4, 5, 6, 7]
"""
t = self._t
if t >= 0:
raise TypeError("cannot convert non-scalar to int")
return int(self.inspect(self._fields[-t]))
def __float__(self):
"""converts K scalars to python float
>>> [float(q(x)) for x in '1b 2h 3 4e `5 6.0 2000.01.08'.split()]
[1.0, 2.0, 3.0, 4.0, 5.0, 6.0, 7.0]
"""
t = self._t
if t >= 0:
raise TypeError("cannot convert non-scalar to float")
return float(self.inspect(self._fields[-t]))
def __index__(self):
t = self._t
if -5 >= t >= -7:
return int(self)
raise TypeError("Only scalar short/int/long K objects "
"can be converted to an index")
def __bytes__(self):
t = self._t
if -5 >= t >= -7:
return bytes(int(self))
if 0 < abs(t) < 11:
if abs(t) == 2:
# A work-around while .data is not implemented for guid type
from uuid import UUID
x = q('(),', self) # ensure that x is a list
return b''.join(UUID(int=i).bytes for i in x)
return bytes(self.data)
raise BufferError("k object of type %d" % t)
def __eq__(self, other):
"""
>>> K(1) == K(1)
True
>>> K(1) == None
False
"""
try:
other = K(other)
except TypeError:
return False
return bool(k('~')(self, other))
def __ne__(self, other):
"""
>>> K(1) != K(2)
True
"""
return bool(k('~~')(self, other))
def __contains__(self, item):
"""membership test
>>> 1 in q('1 2 3')
True
>>> 'abc' not in q('(1;2.0;`abc)')
False
"""
if self._t:
x = q('in', item, self)
else:
x = q('{sum x~/:y}', item, self)
return bool(x)
def keys(self):
"""returns q('key', self)
Among other uses, enables interoperability between q and
python dicts.
>>> from collections import OrderedDict
>>> OrderedDict(q('`a`b!1 2'))
OrderedDict([('a', 1), ('b', 2)])
>>> d = {}; d.update(q('`a`b!1 2'))
>>> list(sorted(d.items()))
[('a', 1), ('b', 2)]
"""
return self._k(0, 'key', self)
def show(self, start=0, geometry=None, output=None):
"""pretty-print data to the console
(similar to q.show, but uses python stdout by default)
>>> x = q('([k:`x`y`z]a:1 2 3;b:10 20 30)')
>>> x.show() # doctest: +NORMALIZE_WHITESPACE
k| a b
-| ----
x| 1 10
y| 2 20
z| 3 30
the first optional argument, 'start' specifies the first row to be
printed (negative means from the end)
>>> x.show(2) # doctest: +NORMALIZE_WHITESPACE
k| a b
-| ----
z| 3 30
>>> x.show(-2) # doctest: +NORMALIZE_WHITESPACE
k| a b
-| ----
y| 2 20
z| 3 30
the geometry is the height and width of the console
>>> x.show(geometry=[4, 6])
k| a..
-| -..
x| 1..
..
"""
if output is None:
output = sys.stdout
if geometry is None:
geometry = q.value(kp("\\c"))
else:
geometry = self._I(geometry)
if start < 0:
start += q.count(self)
# Make sure nil is not passed to a q function
if self._id() != nil._id():
r = self._show(geometry, start)
else:
r = '::\n'
if isinstance(output, type):
return output(r)
try:
output.write(r)
except TypeError:
output.write(str(r))
# See issue #665
def decode(self, encoding='utf-8', errors='strict'):
return bytes(self).decode(encoding, errors)
def _seu(self, what, columns, by, where, kwds):
args = [self]
anames = ['self']
if kwds:
extra = sorted(kwds.keys())
args.extend(kwds[name] for name in extra)
anames.extend(extra)
if not isinstance(columns, str):
columns = ','.join(str(x) for x in columns)
query = "{[%s]%s %s " % (';'.join(anames), what, columns)
if by:
if not isinstance(by, str):
by = ','.join(str(x) for x in by)
query += " by " + by
query += " from self"
if where:
if not isinstance(where, str):
where = ','.join(str(x) for x in where)
query += " where " + where
query += '}'
return q(query, *args)
def select(self, columns=(), by=(), where=(), **kwds):
"""select from self
>>> t = q('([]a:1 2 3; b:10 20 30)')
>>> t.select('a', where='b > 20').show()
a
-
3
"""
return self._seu('select', columns, by, where, kwds)
def exec(self, columns=(), by=(), where=(), **kwds):
"""exec from self
>>> t = q('([]a:1 2 3; b:10 20 30)')
>>> t.exec('a', where='b > 10').show()
2 3
"""
return self._seu('exec', columns, by, where, kwds)
exec_ = exec # TODO: deprecate
def update(self, columns=(), by=(), where=(), **kwds):
"""update from self
>>> t = q('([]a:1 2 3; b:10 20 30)')
>>> t.update('a*2',
... where='b > 20').show() # doctest: +NORMALIZE_WHITESPACE
a b
----
1 10
2 20
6 30
"""
return self._seu('update', columns, by, where, kwds)
def delete(self, columns=(), where=()):
"""delete from self
>>> t = q('([]a:1 2 3; b:10 20 30)')
>>> t.delete('a').show() # doctest: +NORMALIZE_WHITESPACE
b
--
10
20
30
"""
return self._seu('delete', columns, (), where, {})
@property
def ss(self):
if self._t == 10:
return q.ss(self)
return q('`ss$', self)
if _np is not None:
@property
def _mask(self):
x = self._get_null()
if x is None:
return _np.ma.nomask
else:
return _np.asarray(x)
from ._n import array as __array__
__array_priority__ = 20
__doc__ += """
K objects can be used in Python arithmetic expressions
>>> x, y, z = map(K, (1, 2, 3))
>>> print(x + y, x * y,
... z/y, x|y, x&y, abs(-z)) #doctest: +NORMALIZE_WHITESPACE
3 2 1.5 2 1 3
Mixing K objects with python numbers is allowed
>>> 1/q('1 2 4')
k('1 0.5 0.25')
>>> q.til(5)**2
k('0 1 4 9 16f')
"""
def __format__(self, fmt):
if fmt:
return format(self._pys(), fmt)
return str(self)
def __sizeof__(self):
return object.__sizeof__(self) + int(self._sizeof())
def __fspath__(self):
"""Return the file system path representation of the object."""
if self._t != -11: # symbol
raise TypeError
sym = str(self)
if not sym.startswith(':'):
raise TypeError
return sym[1:]
def __complex__(self):
"""Called to implement the built-in function complex()."""
if self._t != 99 or self.key != ['re', 'im']:
return complex(float(self))
return complex(float(self.re), float(self.im))
@classmethod
def dict(cls, *args, **kwds):
"""Construct a q dictionary
K.dict() -> new empty q dictionary (q('()!()')
K.dict(mapping) -> new dictionary initialized from a mapping object's
(key, value) pairs
K.dict(iterable) -> new dictionary initialized from an iterable
yielding (key, value) pairs
K.dict(**kwargs) -> new dictionary initialized with the name=value
pairs in the keyword argument list.
For example: K.dict(one=1, two=2)
"""
if args:
if len(args) > 1:
raise TypeError("Too many positional arguments")
x = args[0]
keys = []
vals = []
try:
x_keys = x.keys
except AttributeError:
for k, v in x:
keys.append(k)
vals.append(v)
else:
keys = x_keys()
vals = [x[k] for k in keys]
return q('!', keys, vals)
else:
if kwds:
keys = []
vals = []
for k, v in kwds.items():
keys.append(k)
vals.append(v)
return q('!', keys, vals)
else:
return q('()!()')
@classmethod
def table(cls, *args, **kwds):
if args or kwds:
return cls.dict(*args, **kwds).flip
else:
raise TypeError("A table must have at least one column")
|
class K(_K):
'''proxies for kdb+ objects
>>> q('2005.01.01 2005.12.04')
k('2005.01.01 2005.12.04')
Iteration over simple lists produces python objects
>>> list(q("`a`b`c`d"))
['a', 'b', 'c', 'd']
Iteration over q tables produces q dictionaries
>>> list(q("([]a:`x`y`z;b:1 2 3)"))
[k('`a`b!(`x;1)'), k('`a`b!(`y;2)'), k('`a`b!(`z;3)')]
Iteration over a q dictionary iterates over its key
>>> list(q('`a`b!1 2'))
['a', 'b']
as a consequence, iteration over a keyed table is the same as
iteration over its key table
>>> list(q("([a:`x`y`z]b:1 2 3)"))
[k('(,`a)!,`x'), k('(,`a)!,`y'), k('(,`a)!,`z')]
Callbacks into python
>>> def f(x, y):
... return x + y
>>> q('{[f]f(1;2)}', f)
k('3')
Buffer protocol
The following session illustrates how buffer protocol implemented by
K objects can be used to write data from Python streams directly yo kdb+.
Create a list of chars in kdb+
>>> x = kp('xxxxxx')
Open a pair of file descriptors
>>> r, w = os.pipe()
Write 6 bytes to the write end
>>> os.write(w, b'abcdef')
6
Read from the read-end into x
>>> f = os.fdopen(r, mode='rb')
>>> f.readinto(x)
6
Now x contains the bytes that were sent through the pipe
>>> x
k('"abcdef"')
Close the descriptors and the stream
>>> os.close(w); f.close()
Low level interface
The K type provides a set of low level functions that are similar
to the C API provided by the `k.h header <http://kx.com/q/c/c/k.h>`_.
The C API functions that return K objects in C are implemented as
class methods that return instances of K type.
Atoms
>>> K._kb(True), K._kg(5), K._kh(42), K._ki(-3), K._kj(2**40)
(k('1b'), k('0x05'), k('42h'), k('-3i'), k('1099511627776'))
>>> K._ke(3.5), K._kf(1.0), K._kc(b'x'), K._ks('xyz')
(k('3.5e'), k('1f'), k('"x"'), k('`xyz'))
>>> K._kd(0), K._kz(0.0), K._kt(0)
(k('2000.01.01'), k('2000.01.01T00:00:00.000'), k('00:00:00.000'))
Tables and dictionaries
>>> x = K._xD(k('`a`b`c'), k('1 2 3')); x, K._xT(x)
(k('`a`b`c!1 2 3'), k('+`a`b`c!1 2 3'))
Keyed table
>>> t = K._xD(K._xT(K._xD(k(",`a"), k(",1 2 3"))),
... K._xT(K._xD(k(",`b"), k(",10 20 30"))))
>>> K._ktd(t)
k('+`a`b!(1 2 3;10 20 30)')
'''
def _set_mask(self, mask):
pass
@classmethod
def _from_record_array(cls, x):
pass
@classmethod
def _from_sequence(cls, x, elm=None):
pass
@classmethod
def _convert(cls, x):
pass
def __reduce_ex__(self, proto):
pass
def __getitem__(self, x):
'''
>>> k("10 20 30 40 50")[k("1 3")]
k('20 40')
>>> k("`a`b`c!1 2 3")['b']
2
'''
pass
def __getattr__(self, a):
'''table columns can be accessed via dot notation
>>> q("([]a:1 2 3; b:10 20 30)").a
k('1 2 3')
'''
pass
def __int__(self):
'''converts K scalars to python int
>>> [int(q(x)) for x in '1b 2h 3 4e `5 6.0 2000.01.08'.split()]
[1, 2, 3, 4, 5, 6, 7]
'''
pass
def __float__(self):
'''converts K scalars to python float
>>> [float(q(x)) for x in '1b 2h 3 4e `5 6.0 2000.01.08'.split()]
[1.0, 2.0, 3.0, 4.0, 5.0, 6.0, 7.0]
'''
pass
def __index__(self):
pass
def __bytes__(self):
pass
def __eq__(self, other):
'''
>>> K(1) == K(1)
True
>>> K(1) == None
False
'''
pass
def __ne__(self, other):
'''
>>> K(1) != K(2)
True
'''
pass
def __contains__(self, item):
'''membership test
>>> 1 in q('1 2 3')
True
>>> 'abc' not in q('(1;2.0;`abc)')
False
'''
pass
def keys(self):
'''returns q('key', self)
Among other uses, enables interoperability between q and
python dicts.
>>> from collections import OrderedDict
>>> OrderedDict(q('`a`b!1 2'))
OrderedDict([('a', 1), ('b', 2)])
>>> d = {}; d.update(q('`a`b!1 2'))
>>> list(sorted(d.items()))
[('a', 1), ('b', 2)]
'''
pass
def show(self, start=0, geometry=None, output=None):
'''pretty-print data to the console
(similar to q.show, but uses python stdout by default)
>>> x = q('([k:`x`y`z]a:1 2 3;b:10 20 30)')
>>> x.show() # doctest: +NORMALIZE_WHITESPACE
k| a b
-| ----
x| 1 10
y| 2 20
z| 3 30
the first optional argument, 'start' specifies the first row to be
printed (negative means from the end)
>>> x.show(2) # doctest: +NORMALIZE_WHITESPACE
k| a b
-| ----
z| 3 30
>>> x.show(-2) # doctest: +NORMALIZE_WHITESPACE
k| a b
-| ----
y| 2 20
z| 3 30
the geometry is the height and width of the console
>>> x.show(geometry=[4, 6])
k| a..
-| -..
x| 1..
..
'''
pass
def decode(self, encoding='utf-8', errors='strict'):
pass
def _seu(self, what, columns, by, where, kwds):
pass
def select(self, columns=(), by=(), where=(), **kwds):
'''select from self
>>> t = q('([]a:1 2 3; b:10 20 30)')
>>> t.select('a', where='b > 20').show()
a
-
3
'''
pass
def exec(self, columns=(), by=(), where=(), **kwds):
'''exec from self
>>> t = q('([]a:1 2 3; b:10 20 30)')
>>> t.exec('a', where='b > 10').show()
2 3
'''
pass
def update(self, columns=(), by=(), where=(), **kwds):
'''update from self
>>> t = q('([]a:1 2 3; b:10 20 30)')
>>> t.update('a*2',
... where='b > 20').show() # doctest: +NORMALIZE_WHITESPACE
a b
----
1 10
2 20
6 30
'''
pass
def delete(self, columns=(), where=()):
'''delete from self
>>> t = q('([]a:1 2 3; b:10 20 30)')
>>> t.delete('a').show() # doctest: +NORMALIZE_WHITESPACE
b
--
10
20
30
'''
pass
@property
def ss(self):
pass
@property
def _mask(self):
pass
def __format__(self, fmt):
pass
def __sizeof__(self):
pass
def __fspath__(self):
'''Return the file system path representation of the object.'''
pass
def __complex__(self):
'''Called to implement the built-in function complex().'''
pass
@classmethod
def dict(cls, *args, **kwds):
'''Construct a q dictionary
K.dict() -> new empty q dictionary (q('()!()')
K.dict(mapping) -> new dictionary initialized from a mapping object's
(key, value) pairs
K.dict(iterable) -> new dictionary initialized from an iterable
yielding (key, value) pairs
K.dict(**kwargs) -> new dictionary initialized with the name=value
pairs in the keyword argument list.
For example: K.dict(one=1, two=2)
'''
pass
@classmethod
def table(cls, *args, **kwds):
pass
| 38 | 17 | 12 | 1 | 7 | 4 | 3 | 0.77 | 1 | 17 | 0 | 0 | 25 | 0 | 30 | 30 | 539 | 108 | 246 | 75 | 206 | 189 | 219 | 68 | 186 | 7 | 1 | 3 | 80 |
144,323 |
KxSystems/pyq
|
/Users/umroot/Documents/PhD_works/PhD-Core-Contents/Class-level-dataset-curation/data/git_repos_for_analysis/KxSystems_pyq/src/pyq/tests/test_k.py
|
pyq.tests.test_k.NumPyTestCase
|
class NumPyTestCase(unittest.TestCase):
def test_scalar(self):
x = ki(0)
self.assertEqual(array(x).shape, ())
|
class NumPyTestCase(unittest.TestCase):
def test_scalar(self):
pass
| 2 | 0 | 3 | 0 | 3 | 0 | 1 | 0 | 1 | 0 | 0 | 0 | 1 | 0 | 1 | 73 | 4 | 0 | 4 | 3 | 2 | 0 | 4 | 3 | 2 | 1 | 2 | 0 | 1 |
144,324 |
KxSystems/pyq
|
KxSystems_pyq/src/pyq/tests/test_k.py
|
pyq.tests.test_k.TableDictTestCase
|
class TableDictTestCase(K_TestCase):
def test_xD(self):
self.assert_k_is(xD(S('abc'), I(range(3))), '`a`b`c!0 1 2i')
def test_xT(self):
a = S('XYZ')
b = kp('xyz')
c = I([1, 2, 3])
self.assert_k_is(xT(xD(S('abc'), K([a, b, c]))),
'([]a:`X`Y`Z;b:"xyz";c:1 2 3i)')
def test_ktd(self):
x = k(0, '([a:1 2 3]b:10 20 30)')
y = '([]a:1 2 3;b:10 20 30)'
self.assert_k_is(ktd(x), y)
|
class TableDictTestCase(K_TestCase):
def test_xD(self):
pass
def test_xT(self):
pass
def test_ktd(self):
pass
| 4 | 0 | 4 | 0 | 4 | 0 | 1 | 0 | 1 | 1 | 0 | 0 | 3 | 0 | 3 | 76 | 15 | 2 | 13 | 9 | 9 | 0 | 12 | 9 | 8 | 1 | 3 | 0 | 3 |
144,325 |
KxSystems/pyq
|
KxSystems_pyq/src/pyq/tests/test_numpy.py
|
pyq.tests.test_numpy.A
|
class A(object):
@property
def __array_struct__(self):
raise TypeError
|
class A(object):
@property
def __array_struct__(self):
pass
| 3 | 0 | 2 | 0 | 2 | 0 | 1 | 0 | 1 | 1 | 0 | 0 | 1 | 0 | 1 | 1 | 4 | 0 | 4 | 3 | 1 | 0 | 3 | 2 | 1 | 1 | 1 | 0 | 1 |
144,326 |
KxSystems/pyq
|
KxSystems_pyq/src/pyq/tests/test_q.py
|
pyq.tests.test_q.CallTestCase
|
class CallTestCase(unittest.TestCase):
def test_a0(self):
self.assertEqual(q('{1}')(), q('1'))
def test_a1(self):
self.assertEqual(q('::')(1), q('1'))
def test_a2(self):
self.assertEqual(q('+')(1, 2), q('3'))
def test_a3(self):
self.assertEqual(q('?')(q('10b'), 1, 2), q('1 2'))
def test_err(self):
try:
q("{'`test}", 0)
except kerr as e:
self.assertEqual(e.args[0], 'test')
q("f:{'`test}")
try:
q("{f[x]}")(42)
except kerr as e:
self.assertEqual(e.args[0], 'test')
|
class CallTestCase(unittest.TestCase):
def test_a0(self):
pass
def test_a1(self):
pass
def test_a2(self):
pass
def test_a3(self):
pass
def test_err(self):
pass
| 6 | 0 | 4 | 0 | 4 | 0 | 1 | 0 | 1 | 0 | 0 | 0 | 5 | 0 | 5 | 77 | 23 | 4 | 19 | 7 | 13 | 0 | 19 | 6 | 13 | 3 | 2 | 1 | 7 |
144,327 |
KxSystems/pyq
|
KxSystems_pyq/src/pyq/tests/test_q.py
|
pyq.tests.test_q.TestOrderedDict
|
class TestOrderedDict(unittest.TestCase):
def test_conversion(self):
import collections
odict = getattr(collections, 'OrderedDict', None)
if odict is None:
self.skipTest("no OrderedDict in collections")
od = odict([('a', 1.0), ('b', 2.0)])
self.assertEqual(K(od), q('`a`b!1 2f'))
self.assertEqual(K(odict()), q('()!()'))
|
class TestOrderedDict(unittest.TestCase):
def test_conversion(self):
pass
| 2 | 0 | 9 | 1 | 8 | 0 | 2 | 0 | 1 | 0 | 0 | 0 | 1 | 0 | 1 | 73 | 10 | 1 | 9 | 5 | 6 | 0 | 9 | 5 | 6 | 2 | 2 | 1 | 2 |
144,328 |
KxSystems/pyq
|
KxSystems_pyq/src/pyq/tests/test_q.py
|
pyq.tests.test_q.TestPickle
|
class TestPickle(unittest.TestCase):
def test_roundtrip(self):
import pickle
data = ['1b', '1 2 3', '"abcde"',
'(([a:""]b:0#0);`;0h)']
for d in data:
x = q(d)
s = pickle.dumps(x)
y = pickle.loads(s)
self.assertEqual(x, y)
|
class TestPickle(unittest.TestCase):
def test_roundtrip(self):
pass
| 2 | 0 | 10 | 1 | 9 | 1 | 2 | 0.1 | 1 | 0 | 0 | 0 | 1 | 0 | 1 | 73 | 11 | 1 | 10 | 8 | 7 | 1 | 9 | 8 | 6 | 2 | 2 | 1 | 2 |
144,329 |
KxSystems/pyq
|
KxSystems_pyq/setup.py
|
setup.BuildExe
|
class BuildExe(Command):
description = "build executables"
user_options = []
q_home = None
q_arch = None
q_version = None
build_temp = None
build_exe = None
build_base = None
compiler = None
debug = None
define = None
plat_name = None
def initialize_options(self):
pass
def finalize_options(self):
self.set_undefined_options('config',
('q_home', 'q_home'),
('q_arch', 'q_arch'),
('q_version', 'q_version'))
self.set_undefined_options('build',
('build_base', 'build_base'),
('compiler', 'compiler'),
('debug', 'debug'),
('force', 'force'),
('plat_name', 'plat_name'))
if self.build_exe is None:
self.build_exe = os.path.join(self.build_base,
'exe.{}-{}'.format(self.plat_name,
sys.version[:3]))
if self.define is None:
self.define = [
('KXVER', self.q_version[0]),
('QARCH', self.q_arch),
]
def run(self):
from distutils.ccompiler import new_compiler
from distutils.sysconfig import customize_compiler
for exe in self.distribution.executables:
compiler = new_compiler(
compiler=self.compiler,
verbose=self.verbose,
dry_run=self.dry_run,
force=self.force)
customize_compiler(compiler)
extra_args = exe.extra_compile_args or []
objects = compiler.compile(exe.sources,
macros=self.define,
extra_postargs=extra_args,
output_dir=self.build_temp)
compiler.link_executable(objects,
extra_preargs=LDFLAGS,
output_progname=exe.name,
output_dir=self.build_exe)
|
class BuildExe(Command):
def initialize_options(self):
pass
def finalize_options(self):
pass
def run(self):
pass
| 4 | 0 | 14 | 1 | 14 | 0 | 2 | 0 | 1 | 0 | 0 | 0 | 3 | 2 | 3 | 33 | 62 | 8 | 54 | 24 | 48 | 0 | 31 | 22 | 25 | 3 | 1 | 1 | 6 |
144,330 |
KxSystems/pyq
|
KxSystems_pyq/setup.py
|
setup.BuildPyExt
|
class BuildPyExt(build_ext):
q_arch = None
def finalize_options(self):
build_ext.finalize_options(self)
self.set_undefined_options('build_qext',
('define', 'define'))
self.set_undefined_options('config',
('q_arch', 'q_arch'))
conf = self.get_finalized_command("config")
if conf.extra_link_args:
for ext in self.extensions:
ext.extra_link_args = [a.format(**vars(ext))
for a in conf.extra_link_args]
if WINDOWS:
def build_extensions(self):
self.compiler.initialize()
self.compiler.compile_options.remove('/MD')
build_ext.build_extensions(self)
|
class BuildPyExt(build_ext):
def finalize_options(self):
pass
def build_extensions(self):
pass
| 3 | 0 | 8 | 0 | 8 | 0 | 2 | 0 | 1 | 0 | 0 | 0 | 2 | 0 | 2 | 50 | 20 | 2 | 18 | 6 | 15 | 0 | 15 | 6 | 12 | 3 | 2 | 2 | 4 |
144,331 |
KxSystems/pyq
|
KxSystems_pyq/setup.py
|
setup.BuildQExt
|
class BuildQExt(Command):
description = "build q extension modules"
user_options = [
('build-lib=', 'd', "build directory"),
('force', 'f', "forcibly build everything (ignore file timestamps)"),
]
q_home = None
q_arch = None
q_version = None
build_base = None
build_temp = None
build_lib = None
compiler = None
define = None
debug = None
force = None
plat_name = None
extensions = None
def initialize_options(self):
pass
def finalize_options(self):
self.set_undefined_options('config',
('q_home', 'q_home'),
('q_arch', 'q_arch'),
('q_version', 'q_version'))
self.set_undefined_options('build',
('build_base', 'build_base'),
('compiler', 'compiler'),
('debug', 'debug'),
('force', 'force'),
('plat_name', 'plat_name'))
if self.build_lib is None:
self.build_lib = os.path.join(self.build_base,
'qext.' + self.plat_name)
if self.build_temp is None:
self.build_temp = os.path.join(self.build_base,
'temp.' + self.plat_name)
if self.extensions is None:
self.extensions = self.distribution.qext_modules
if self.define is None:
split_version = self.q_version.split('.')
self.define = [('KXVER', split_version[0]),
('KXVER2', split_version[1]), ]
def run(self):
from distutils.ccompiler import new_compiler
from distutils.sysconfig import customize_compiler
include_dirs = ['src/pyq/kx', ]
conf = self.get_finalized_command("config")
for ext in self.extensions:
sources = ext.sources
ext_path = os.path.join(self.build_lib,
ext.name + ('.dll' if WINDOWS else '.so'))
compiler = new_compiler(compiler=self.compiler,
verbose=self.verbose,
dry_run=self.dry_run,
force=self.force)
customize_compiler(compiler)
if WINDOWS:
compiler.initialize()
compiler.compile_options.remove('/MD')
extra_args = ext.extra_compile_args or []
objects = compiler.compile(sources,
output_dir=self.build_temp,
macros=self.define,
extra_postargs=extra_args,
include_dirs=include_dirs)
extra_args = conf.extra_link_args[:] + ext.extra_link_args
if WINDOWS:
extra_args.extend([r'/DEF:src\pyq\%s.def' % ext.name])
compiler.link_shared_object(objects, ext_path,
extra_postargs=extra_args)
add_data_file(self.distribution.data_files,
os.path.join('q', self.q_arch), ext_path)
|
class BuildQExt(Command):
def initialize_options(self):
pass
def finalize_options(self):
pass
def run(self):
pass
| 4 | 0 | 19 | 1 | 18 | 0 | 4 | 0 | 1 | 0 | 0 | 0 | 3 | 2 | 3 | 33 | 84 | 11 | 73 | 31 | 67 | 0 | 49 | 29 | 43 | 5 | 1 | 2 | 11 |
144,332 |
KxSystems/pyq
|
/Users/umroot/Documents/PhD_works/PhD-Core-Contents/Class-level-dataset-curation/data/git_repos_for_analysis/KxSystems_pyq/src/pyq/__init__.py
|
pyq._gendescriptors.StringDesc
|
class StringDesc:
def __get__(self, instance, owner):
if instance is None:
return make_strings
# NB: As a reserved word, "string" cannot be a column name but
# can be a key in a dictionary
if instance._t == 99:
key = instance.key
if key._t == 11 and 'string' in key:
return instance['string']
return cls._k(0, 'string', instance)
|
class StringDesc:
def __get__(self, instance, owner):
pass
| 2 | 0 | 11 | 1 | 8 | 2 | 4 | 0.22 | 0 | 0 | 0 | 0 | 1 | 0 | 1 | 1 | 12 | 1 | 9 | 3 | 7 | 2 | 9 | 3 | 7 | 4 | 0 | 2 | 4 |
144,333 |
KxSystems/pyq
|
KxSystems_pyq/setup.py
|
setup.Config
|
class Config(config):
user_options = [
('q-home=', None, 'q home directory'),
('q-version=', None, 'q version'),
('q-arch=', None, 'q architecture, e.g. l64'),
('python-dll=', None, 'path to the python dynamic library'),
('dest=', None, "path to the config file (default: setup.cfg)"),
('write', None, 'write the config file')
]
q_home = None
q_arch = None
q_version = None
python_dll = None
dest = None
write = None
extra_link_args = []
def initialize_options(self):
config.initialize_options(self)
def finalize_options(self):
if self.q_home is None:
self.q_home = get_q_home(os.environ)
if self.q_arch is None:
self.q_arch = get_q_arch(self.q_home)
if self.q_version is None:
self.q_version = get_q_version(self.q_home)
if self.python_dll is None:
self.python_dll = get_python_dll(sys.executable)
if self.dest is None:
self.dest = 'setup.cfg'
if WINDOWS:
self.extra_link_args = [r'src\pyq\kx\%s\q.lib' % self.q_arch]
def run(self):
setup_cfg = SETUP_CFG.format(**vars(self))
self.announce(setup_cfg.rstrip(), 2)
if self.write:
with open(self.dest, 'w') as f:
f.write(setup_cfg)
self.announce('^^^ Written to %s.' % self.dest, 2)
else:
self.announce('^^^ Use --write options'
' to write this to %s.' % self.dest, 2)
|
class Config(config):
def initialize_options(self):
pass
def finalize_options(self):
pass
def run(self):
pass
| 4 | 0 | 8 | 0 | 8 | 0 | 3 | 0 | 1 | 0 | 0 | 0 | 3 | 0 | 3 | 50 | 46 | 5 | 41 | 14 | 37 | 0 | 32 | 13 | 28 | 7 | 2 | 2 | 10 |
144,334 |
KxSystems/pyq
|
KxSystems_pyq/setup.py
|
setup.InstallExe
|
class InstallExe(install_scripts):
description = "install executables"
outfiles = None
def finalize_options(self):
self.set_undefined_options('build_exe', ('build_exe', 'build_dir'))
self.set_undefined_options('install',
('install_scripts', 'install_dir'),
('force', 'force'),
('skip_build', 'skip_build'),
)
def run(self):
if not self.skip_build:
self.run_command('build_exe')
from stat import ST_MODE
if not self.get_inputs():
return
self.outfiles = self.copy_tree(self.build_dir, self.install_dir)
if os.name == 'posix':
# Set the executable bits (owner, group, and world) on
# all the executables we just installed.
for file in self.get_outputs():
if self.dry_run:
self.announce("changing mode of %s" % file, 2)
else:
mode = ((os.stat(file)[ST_MODE]) | 0o555) & 0o7777
self.announce("changing mode of %s to %o" %
(file, mode), 2)
os.chmod(file, mode)
def get_inputs(self):
return self.distribution.executables or []
|
class InstallExe(install_scripts):
def finalize_options(self):
pass
def run(self):
pass
def get_inputs(self):
pass
| 4 | 0 | 9 | 0 | 8 | 1 | 3 | 0.07 | 1 | 0 | 0 | 0 | 3 | 0 | 3 | 38 | 34 | 4 | 28 | 9 | 23 | 2 | 22 | 9 | 17 | 6 | 2 | 3 | 8 |
144,335 |
KxSystems/pyq
|
KxSystems_pyq/setup.py
|
setup.InstallQExt
|
class InstallQExt(install_data):
description = "install q/k scripts"
q_home = None
q_arch = None
build_dir = None
skip_build = None
install_dir = None
outfiles = None
def finalize_options(self):
self.set_undefined_options('config',
('q_home', 'q_home'),
('q_arch', 'q_arch'))
self.set_undefined_options('build_qext', ('build_lib', 'build_dir'))
self.set_undefined_options('install', ('skip_build', 'skip_build'))
self.install_dir = os.path.join(self.q_home, self.q_arch)
def run(self):
if not self.skip_build:
self.run_command('build_qext')
self.outfiles = self.copy_tree(self.build_dir, self.install_dir)
|
class InstallQExt(install_data):
def finalize_options(self):
pass
def run(self):
pass
| 3 | 0 | 6 | 0 | 6 | 0 | 2 | 0 | 1 | 0 | 0 | 0 | 2 | 0 | 2 | 37 | 22 | 3 | 19 | 10 | 16 | 0 | 17 | 10 | 14 | 2 | 2 | 1 | 3 |
144,336 |
KxSystems/pyq
|
KxSystems_pyq/setup.py
|
setup.InstallQLib
|
class InstallQLib(install_data):
description = "install q/k scripts"
build_dir = None
skip_build = None
outfiles = None
def finalize_options(self):
self.set_undefined_options('config', ('q_home', 'install_dir'))
self.set_undefined_options('build_qlib', ('build_lib', 'build_dir'))
self.set_undefined_options('install', ('skip_build', 'skip_build'))
def run(self):
if not self.skip_build:
self.run_command('build_qlib')
self.outfiles = self.copy_tree(self.build_dir, self.install_dir)
|
class InstallQLib(install_data):
def finalize_options(self):
pass
def run(self):
pass
| 3 | 0 | 4 | 0 | 4 | 0 | 2 | 0 | 1 | 0 | 0 | 0 | 2 | 0 | 2 | 37 | 16 | 3 | 13 | 7 | 10 | 0 | 13 | 7 | 10 | 2 | 2 | 1 | 3 |
144,337 |
KxSystems/pyq
|
KxSystems_pyq/setup.py
|
setup.PyqDistribution
|
class PyqDistribution(Distribution):
qlib_scripts = None
qext_modules = None
executables = None
|
class PyqDistribution(Distribution):
pass
| 1 | 0 | 0 | 0 | 0 | 0 | 0 | 0 | 1 | 0 | 0 | 0 | 0 | 0 | 0 | 30 | 4 | 0 | 4 | 4 | 3 | 0 | 4 | 4 | 3 | 0 | 1 | 0 | 0 |
144,338 |
KxSystems/pyq
|
/Users/umroot/Documents/PhD_works/PhD-Core-Contents/Class-level-dataset-curation/data/git_repos_for_analysis/KxSystems_pyq/src/pyq/tests/test_q.py
|
pyq.tests.test_q.test_mro_conversion.D
|
class D(dict):
pass
|
class D(dict):
pass
| 1 | 0 | 0 | 0 | 0 | 0 | 0 | 0 | 1 | 0 | 0 | 0 | 0 | 0 | 0 | 27 | 2 | 0 | 2 | 1 | 1 | 0 | 2 | 1 | 1 | 0 | 2 | 0 | 0 |
144,339 |
KxSystems/pyq
|
/Users/umroot/Documents/PhD_works/PhD-Core-Contents/Class-level-dataset-curation/data/git_repos_for_analysis/KxSystems_pyq/src/pyq/tests/test_q.py
|
pyq.tests.test_q.test_descriptor.X
|
class X(K):
square = q('{x*x}')
|
class X(K):
pass
| 1 | 0 | 0 | 0 | 0 | 0 | 0 | 0 | 1 | 0 | 0 | 0 | 0 | 0 | 0 | 0 | 2 | 0 | 2 | 2 | 1 | 0 | 2 | 2 | 1 | 0 | 1 | 0 | 0 |
144,340 |
KxSystems/pyq
|
/Users/umroot/Documents/PhD_works/PhD-Core-Contents/Class-level-dataset-curation/data/git_repos_for_analysis/KxSystems_pyq/src/pyq/tests/test_q.py
|
pyq.tests.test_q.test_descriptor.N
|
class N(object):
square = q('{x*x}')
|
class N(object):
pass
| 1 | 0 | 0 | 0 | 0 | 0 | 0 | 0 | 1 | 0 | 0 | 0 | 0 | 0 | 0 | 0 | 2 | 0 | 2 | 2 | 1 | 0 | 2 | 2 | 1 | 0 | 1 | 0 | 0 |
144,341 |
KxSystems/pyq
|
KxSystems_pyq/src/pyq/tests/test_k.py
|
pyq.tests.test_k.StrTestCase
|
class StrTestCase(K_TestCase):
def test_pass(self):
x = 'abc'
self.assertEqual(str(ks(x)), x)
self.assertEqual(str(kp(x)), x)
x = b'a'
self.assertEqual(str(kc(x)), x.decode())
def test_misc(self):
self.assertEqual(str(kb(1)), '1b')
self.assertEqual(str(kh(1)), '1h')
if Q_VERSION >= 3:
self.assertEqual(str(ki(1)), '1i')
self.assertEqual(str(kj(1)), '1')
else:
self.assertEqual(str(ki(1)), '1')
self.assertEqual(str(kj(1)), '1j')
self.assertEqual(str(kf(1)), '1f')
|
class StrTestCase(K_TestCase):
def test_pass(self):
pass
def test_misc(self):
pass
| 3 | 0 | 8 | 0 | 8 | 0 | 2 | 0 | 1 | 1 | 0 | 0 | 2 | 0 | 2 | 75 | 18 | 1 | 17 | 4 | 14 | 0 | 16 | 4 | 13 | 2 | 3 | 1 | 3 |
144,342 |
KxSystems/pyq
|
KxSystems_pyq/src/pyq/tests/test_k.py
|
pyq.tests.test_k.SerializationTestCase
|
class SerializationTestCase(K_TestCase):
def test_b9(self):
self.assert_k_is(b9(0, kb(1)), '0x010000000a000000ff01')
self.assert_k_is(b9(0, kc(b'a')), '0x010000000a000000f661')
self.assert_k_is(b9(0, kg(1)), '0x010000000a000000fc01')
self.assert_k_is(b9(0, ki(1)), '0x010000000d000000fa01000000')
self.assert_k_is(b9(0, kj(1)), '0x0100000011000000f90100000000000000')
self.assert_k_is(b9(0, kp(b'')), '0x010000000e0000000a0000000000')
def test_d9(self):
self.assert_k_is(d9(q('0x010000000a000000ff00')), "0b")
|
class SerializationTestCase(K_TestCase):
def test_b9(self):
pass
def test_d9(self):
pass
| 3 | 0 | 5 | 0 | 5 | 0 | 1 | 0 | 1 | 0 | 0 | 0 | 2 | 0 | 2 | 75 | 11 | 1 | 10 | 3 | 7 | 0 | 10 | 3 | 7 | 1 | 3 | 0 | 2 |
144,343 |
KxSystems/pyq
|
KxSystems_pyq/setup.py
|
setup.BuildQLib
|
class BuildQLib(Command):
description = "build q/k scripts"
user_options = [
('build-lib=', 'd', "build directory"),
('force', 'f', "forcibly build everything (ignore file timestamps)"),
]
q_home = None
build_base = None
build_lib = None
python_dll = None
pyq_executable = None
def initialize_options(self):
pass
def finalize_options(self):
self.set_undefined_options('config',
('q_home', 'q_home'),
('python_dll', 'python_dll'))
self.set_undefined_options('build',
('build_base', 'build_base'))
self.build_lib = os.path.join(self.build_base, 'qlib')
cmd = self.get_finalized_command('install_exe')
pyq_path = os.path.join(cmd.install_dir, 'pyq')
self.pyq_executable = pyq_path.replace('\\', '\\\\')
def run(self):
self.mkpath(self.build_lib)
for script in self.distribution.qlib_scripts:
outfile = os.path.join(self.build_lib, script)
script_file = os.path.join('src', 'pyq', script)
self.write_pyq_config()
self.copy_file(script_file, outfile, preserve_mode=0)
def write_pyq_config(self):
pyq_config_file = os.path.join(self.build_lib, 'pyq-config.q')
with open(pyq_config_file, 'w') as f:
f.write(PYQ_CONFIG.format(**vars(self)))
add_data_file(self.distribution.data_files, 'q', pyq_config_file)
|
class BuildQLib(Command):
def initialize_options(self):
pass
def finalize_options(self):
pass
def run(self):
pass
def write_pyq_config(self):
pass
| 5 | 0 | 6 | 0 | 6 | 0 | 1 | 0 | 1 | 0 | 0 | 0 | 4 | 0 | 4 | 34 | 42 | 7 | 35 | 19 | 30 | 0 | 29 | 18 | 24 | 2 | 1 | 1 | 5 |
144,344 |
KxSystems/pyq
|
/Users/umroot/Documents/PhD_works/PhD-Core-Contents/Class-level-dataset-curation/data/git_repos_for_analysis/KxSystems_pyq/src/pyq/tests/test_q.py
|
pyq.tests.test_q.TestBuiltinConversions
|
class TestBuiltinConversions(unittest.TestCase):
def test_none(self):
self.assertEqual(K(None), q("::"))
def test_bool(self):
self.assertEqual(K(True), q("1b"))
self.assertEqual(K(False), q("0b"))
def test_int(self):
self.assertEqual(K(1), q("1"))
self.assertRaises(OverflowError, K, 2 ** 100)
@unittest.skipIf(_PY3K, "long and int are unified in Py3K")
def test_long(self):
self.assertEqual(K(1), q("1"))
self.assertRaises(OverflowError, K, 2 ** 100)
def test_str(self):
self.assertEqual(K(''), q("`"))
def test_float(self):
self.assertEqual(K(1.0), q("1f"))
self.assertEqual(K(float('nan')), q("0Nf"))
self.assertEqual(K(float('inf')), q("0w"))
def test_datetime(self):
self.assertEqual(K(date(2000, 1, 1)),
q("2000.01.01"))
self.assertEqual(K(time(0)), q("00:00t"))
self.assertEqual(K(datetime(2000, 1, 1)),
q("2000.01.01D00:00:00.000000000"))
self.assertEqual(K(timedelta(1)), q("1D"))
def test_list(self):
self.assertEqual(K([]), q("()"))
self.assertEqual(K([1]), q("enlist 1"))
self.assertEqual(K([1, 2]), q("1 2"))
self.assertEqual(K([1, None]), q("1 0N"))
self.assertEqual(K([1.0]), q("enlist 1f"))
self.assertEqual(K([1.0, 2.0]), q("1 2f"))
self.assertEqual(K([1.0, float('nan')]), q("1 0n"))
self.assertEqual(K(['']), q("enlist`"))
self.assertEqual(K(['a', 'b']), q("`a`b"))
self.assertEqual(K([date(2001, 1, 1)]), q('enlist 2001.01.01'))
self.assertEqual(K([date(2001, 1, 1), None]), q('2001.01.01 0Nd'))
self.assertEqual(K(5 * [date(2001, 1, 1)]), q('5#2001.01.01'))
def test_tuple(self):
self.assertEqual(K(()), q("()"))
t = (False, 0, 0.0, '', kp(b''), date(2000, 1, 1))
self.assertEqual(K(t), q("(0b;0;0f;`;\"\";2000.01.01)"))
|
class TestBuiltinConversions(unittest.TestCase):
def test_none(self):
pass
def test_bool(self):
pass
def test_int(self):
pass
@unittest.skipIf(_PY3K, "long and int are unified in Py3K")
def test_long(self):
pass
def test_str(self):
pass
def test_float(self):
pass
def test_datetime(self):
pass
def test_list(self):
pass
def test_tuple(self):
pass
| 11 | 0 | 5 | 0 | 5 | 0 | 1 | 0.02 | 1 | 3 | 0 | 0 | 9 | 0 | 9 | 81 | 54 | 11 | 43 | 12 | 32 | 1 | 40 | 11 | 30 | 1 | 2 | 0 | 9 |
144,345 |
KxSystems/pyq
|
/Users/umroot/Documents/PhD_works/PhD-Core-Contents/Class-level-dataset-curation/data/git_repos_for_analysis/KxSystems_pyq/src/pyq/tests/test_k.py
|
pyq.tests.test_k.test_kb_error.X
|
class X:
def __index__(self):
raise ValueError
|
class X:
def __index__(self):
pass
| 2 | 0 | 2 | 0 | 2 | 0 | 1 | 0 | 0 | 1 | 0 | 0 | 1 | 0 | 1 | 1 | 3 | 0 | 3 | 2 | 1 | 0 | 3 | 2 | 1 | 1 | 0 | 0 | 1 |
144,346 |
KxSystems/pyq
|
/Users/umroot/Documents/PhD_works/PhD-Core-Contents/Class-level-dataset-curation/data/git_repos_for_analysis/KxSystems_pyq/src/pyq/tests/test_k.py
|
pyq.tests.test_k.test_kj_error.X
|
class X:
def __index__(self):
return ''
|
class X:
def __index__(self):
pass
| 2 | 0 | 2 | 0 | 2 | 0 | 1 | 0 | 0 | 0 | 0 | 0 | 1 | 0 | 1 | 1 | 3 | 0 | 3 | 2 | 1 | 0 | 3 | 2 | 1 | 1 | 0 | 0 | 1 |
144,347 |
KxSystems/pyq
|
/Users/umroot/Documents/PhD_works/PhD-Core-Contents/Class-level-dataset-curation/data/git_repos_for_analysis/KxSystems_pyq/src/pyq/tests/test_numpy.py
|
pyq.tests.test_numpy.test_broken_mask.B
|
class B(object):
a = numpy.zeros(0)
@property
def __array_struct__(self):
return self.a.__array_struct__
@property
def mask(self):
raise TypeError
|
class B(object):
@property
def __array_struct__(self):
pass
@property
def mask(self):
pass
| 5 | 0 | 2 | 0 | 2 | 0 | 1 | 0 | 1 | 1 | 0 | 0 | 2 | 0 | 2 | 2 | 10 | 2 | 8 | 6 | 3 | 0 | 6 | 4 | 3 | 1 | 1 | 0 | 2 |
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