Commit dd854104 authored by Robert Bradshaw's avatar Robert Bradshaw

Merge branch 'master' into static

Conflicts:
	CHANGES.rst
	Cython/Compiler/Nodes.py
parents a9d1186d ede3eb92
......@@ -48,6 +48,16 @@ Features added
Optimizations
-------------
* The "and"/"or" operators try to avoid unnecessary coercions of their
arguments. They now evaluate the truth value of each argument
independently and only coerce the final result of the whole expression
to the target type (e.g. the type on the left side of an assignment).
This also avoids reference counting overhead for Python values during
evaluation and generally improves the code flow in the generated C code.
* Cascaded assignments (a = b = ...) try to minimise the number of
type coercions.
* The Python expression "2 ** N" is optimised into bit shifting.
See http://bugs.python.org/issue21420
......
......@@ -5322,9 +5322,16 @@ class AttributeNode(ExprNode):
else:
# Create a temporary entry describing the C method
# as an ordinary function.
ubcm_entry = Symtab.Entry(entry.name,
"%s->%s" % (type.vtabptr_cname, entry.cname),
entry.type)
if entry.func_cname:
cname = entry.func_cname
# Fix self type.
ctype = copy.copy(entry.type)
ctype.args = ctype.args[:]
ctype.args[0] = PyrexTypes.CFuncTypeArg('self', type, 'self', None)
else:
cname = "%s->%s" % (type.vtabptr_cname, entry.cname)
ctype = entry.type
ubcm_entry = Symtab.Entry(entry.name, cname, ctype)
ubcm_entry.is_cfunction = 1
ubcm_entry.func_cname = entry.func_cname
ubcm_entry.is_unbound_cmethod = 1
......@@ -9622,12 +9629,6 @@ class PowNode(NumBinopNode):
return super(PowNode, self).py_operation_function(code)
# Note: This class is temporarily "shut down" into an ineffective temp
# allocation mode.
#
# More sophisticated temp reuse was going on before, one could have a
# look at adding this again after /all/ classes are converted to the
# new temp scheme. (The temp juggling cannot work otherwise).
class BoolBinopNode(ExprNode):
# Short-circuiting boolean operation.
#
......@@ -9636,6 +9637,9 @@ class BoolBinopNode(ExprNode):
# operand2 ExprNode
subexprs = ['operand1', 'operand2']
operator = None
operand1 = None
operand2 = None
def infer_type(self, env):
type1 = self.operand1.infer_type(env)
......@@ -9649,49 +9653,48 @@ class BoolBinopNode(ExprNode):
return self.operand1.may_be_none() or self.operand2.may_be_none()
def calculate_constant_result(self):
operand1 = self.operand1.constant_result
operand2 = self.operand2.constant_result
if self.operator == 'and':
self.constant_result = \
self.operand1.constant_result and \
self.operand2.constant_result
self.constant_result = operand1 and operand2
else:
self.constant_result = \
self.operand1.constant_result or \
self.operand2.constant_result
self.constant_result = operand1 or operand2
def compile_time_value(self, denv):
operand1 = self.operand1.compile_time_value(denv)
operand2 = self.operand2.compile_time_value(denv)
if self.operator == 'and':
return self.operand1.compile_time_value(denv) \
and self.operand2.compile_time_value(denv)
return operand1 and operand2
else:
return self.operand1.compile_time_value(denv) \
or self.operand2.compile_time_value(denv)
return operand1 or operand2
def coerce_to_boolean(self, env):
return BoolBinopNode.from_node(
self,
operator=self.operator,
operand1=self.operand1.coerce_to_boolean(env),
operand2=self.operand2.coerce_to_boolean(env),
operand1=self.operand1.coerce_to_boolean(env).coerce_to_simple(env),
operand2=self.operand2.coerce_to_boolean(env).coerce_to_simple(env),
type=PyrexTypes.c_bint_type,
is_temp=self.is_temp)
def coerce_to(self, dst_type, env):
if dst_type is PyrexTypes.c_bint_type:
return self.coerce_to_boolean(env)
return GenericBoolBinopNode.from_node(
self, env=env, type=dst_type,
operator=self.operator, operand1=self.operand1, operand2=self.operand2)
def is_ephemeral(self):
return self.operand1.is_ephemeral() or self.operand2.is_ephemeral()
def analyse_types(self, env):
# Note: we do not do any coercion here as we most likely do not know the final type anyway.
# We even accept to set self.type to ErrorType if both operands do not have a spanning type.
# The coercion to the final type and to a "simple" value is left to coerce_to().
self.operand1 = self.operand1.analyse_types(env)
self.operand2 = self.operand2.analyse_types(env)
self.type = PyrexTypes.independent_spanning_type(
self.operand1.type, self.operand2.type)
# note: self.type might be ErrorType, but we allow this here
# in order to support eventual coercion to boolean
if not self.type.is_pyobject and not self.type.is_error:
if self.operand1.is_ephemeral() or self.operand2.is_ephemeral():
error(self.pos, "Unsafe C derivative of temporary Python reference used in and/or expression")
self.operand1 = self.operand1.coerce_to(self.type, env)
self.operand2 = self.operand2.coerce_to(self.type, env)
# For what we're about to do, it's vital that
# both operands be temp nodes.
self.operand1 = self.operand1.coerce_to_simple(env)
self.operand2 = self.operand2.coerce_to_simple(env)
self.is_temp = 1
return self
......@@ -9740,8 +9743,8 @@ class BoolBinopNode(ExprNode):
def generate_operand1_test(self, code):
# Generate code to test the truth of the first operand.
if self.type.is_pyobject:
test_result = code.funcstate.allocate_temp(PyrexTypes.c_bint_type,
manage_ref=False)
test_result = code.funcstate.allocate_temp(
PyrexTypes.c_bint_type, manage_ref=False)
code.putln(
"%s = __Pyx_PyObject_IsTrue(%s); %s" % (
test_result,
......@@ -9752,6 +9755,148 @@ class BoolBinopNode(ExprNode):
return (test_result, self.type.is_pyobject)
class BoolBinopResultNode(ExprNode):
"""
Intermediate result of a short-circuiting and/or expression.
Tests the result for 'truthiness' and takes care of coercing the final result
of the overall expression to the target type.
Note that this node provides the same code generation method as
GenericBoolBinopNode to simplify expression nesting.
arg ExprNode the argument to test
value ExprNode the coerced result value node
"""
subexprs = ['arg', 'value']
is_temp = True
arg = None
value = None
def __init__(self, arg, result_type, env):
# using 'arg' multiple times, so it must be a simple/temp value
arg = arg.coerce_to_simple(env)
# wrap in ProxyNode, in case a transform wants to replace self.arg later
arg = ProxyNode(arg)
super(BoolBinopResultNode, self).__init__(
arg.pos, arg=arg, type=result_type,
value=CloneNode(arg).coerce_to(result_type, env))
def coerce_to_boolean(self, env):
# coercing to simple boolean case after being instantiated => replace by simple coerced result
return self.arg.arg.coerce_to_boolean(env)
def generate_operand_test(self, code):
# Generate code to test the truth of the first operand.
if self.arg.type.is_pyobject:
test_result = code.funcstate.allocate_temp(
PyrexTypes.c_bint_type, manage_ref=False)
code.putln(
"%s = __Pyx_PyObject_IsTrue(%s); %s" % (
test_result,
self.arg.py_result(),
code.error_goto_if_neg(test_result, self.pos)))
else:
test_result = self.arg.result()
return (test_result, self.arg.type.is_pyobject)
def generate_bool_evaluation_code(self, code, final_result_temp, and_label, or_label, end_label):
code.mark_pos(self.pos)
# x => x
# x and ... or ... => next 'and' / 'or'
# False ... or x => next 'or'
# True and x => next 'and'
# True or x => True (operand)
self.arg.generate_evaluation_code(code)
if and_label or or_label:
test_result, uses_temp = self.generate_operand_test(code)
sense = '!' if or_label else ''
code.putln("if (%s%s) {" % (sense, test_result))
if uses_temp:
code.funcstate.release_temp(test_result)
self.arg.generate_disposal_code(code)
if or_label:
# value is false => short-circuit to next 'or'
code.put_goto(or_label)
code.putln("} else {")
if and_label:
# value is true => go to next 'and'
code.put_goto(and_label)
if not or_label:
code.putln("} else {")
if not and_label or not or_label:
# if no next 'and' or 'or', we provide the result
self.value.generate_evaluation_code(code)
self.value.make_owned_reference(code)
code.putln("%s = %s;" % (final_result_temp, self.value.result()))
self.value.generate_post_assignment_code(code)
self.arg.generate_disposal_code(code)
self.value.free_temps(code)
if and_label or or_label:
code.put_goto(end_label)
if and_label or or_label:
code.putln("}")
self.arg.free_temps(code)
class GenericBoolBinopNode(BoolBinopNode):
"""
BoolBinopNode with arbitrary non-bool result type.
Note that this node provides the same code generation method as
BoolBinopResultNode to simplify expression nesting.
operator string "and"/"or"
operand1 GenericBoolBinopNode/BoolBinopResultNode left operand
operand2 GenericBoolBinopNode/BoolBinopResultNode right operand
"""
subexprs = ['operand1', 'operand2']
is_temp = True
def __init__(self, pos, env, type, operator, operand1, operand2, **kwargs):
super(GenericBoolBinopNode, self).__init__(
pos, operator=operator, type=type,
operand1=self._wrap_operand(operand1, type, env),
operand2=self._wrap_operand(operand2, type, env),
**kwargs)
def _wrap_operand(self, operand, result_type, env):
if isinstance(operand, (GenericBoolBinopNode, BoolBinopResultNode)):
return operand
if isinstance(operand, BoolBinopNode):
return operand.coerce_to(result_type, env)
else:
return BoolBinopResultNode(operand, result_type, env)
def generate_bool_evaluation_code(self, code, final_result_temp, and_label, or_label, end_label):
code.mark_pos(self.pos)
outer_labels = (and_label, or_label)
if self.operator == 'and':
my_label = and_label = code.new_label('next_and')
else:
my_label = or_label = code.new_label('next_or')
self.operand1.generate_bool_evaluation_code(code, final_result_temp, and_label, or_label, end_label)
and_label, or_label = outer_labels
code.put_label(my_label)
self.operand2.generate_bool_evaluation_code(code, final_result_temp, and_label, or_label, end_label)
def generate_evaluation_code(self, code):
self.allocate_temp_result(code)
or_label = and_label = None
end_label = code.new_label('bool_binop_done')
self.generate_bool_evaluation_code(code, self.result(), and_label, or_label, end_label)
if code.label_used(end_label):
code.put_label(end_label)
class CondExprNode(ExprNode):
# Short-circuiting conditional expression.
#
......
......@@ -2303,7 +2303,6 @@ class CFuncDefNode(FuncDefNode):
"private types")
def call_self_node(self, omit_optional_args=0, is_module_scope=0):
# OLD - DELETE
from . import ExprNodes
args = self.type.args
if omit_optional_args:
......@@ -2315,34 +2314,17 @@ class CFuncDefNode(FuncDefNode):
skip_dispatch = Options.lookup_module_cpdef
elif self.type.is_static_method:
class_entry = self.entry.scope.parent_type.entry
self_arg = ExprNodes.NameNode(self.pos, name=class_entry.name)
self_arg.entry = class_entry
cfunc = ExprNodes.AttributeNode(self.pos, obj=self_arg, attribute=self.entry.name)
call_arg_names = arg_names
class_node = ExprNodes.NameNode(self.pos, name=class_entry.name)
class_node.entry = class_entry
cfunc = ExprNodes.AttributeNode(self.pos, obj=class_node, attribute=self.entry.name)
# Calling static c(p)def methods on an instance disallowed.
# TODO(robertwb): Support by passing self to check for override?
skip_dispatch = True
else:
self_arg = ExprNodes.NameNode(self.pos, name=arg_names[0])
cfunc = ExprNodes.AttributeNode(self.pos, obj=self_arg, attribute=self.entry.name)
call_arg_names = arg_names[1:]
skip_dispatch = False
c_call = ExprNodes.SimpleCallNode(self.pos, function=cfunc, args=[ExprNodes.NameNode(self.pos, name=n) for n in call_arg_names], wrapper_call=skip_dispatch)
return ReturnStatNode(pos=self.pos, return_type=PyrexTypes.py_object_type, value=c_call)
def call_self_node(self, omit_optional_args=0, is_module_scope=0):
from . import ExprNodes
args = self.type.args
if omit_optional_args:
args = args[:len(args) - self.type.optional_arg_count]
arg_names = [arg.name for arg in args]
# The @cname decorator may mutate this later.
func_cname = LazyStr(lambda: self.entry.func_cname)
cfunc = ExprNodes.PythonCapiFunctionNode(self.pos, self.entry.name, func_cname, self.type)
# The entry is inspected due to self.type.is_overridable, but it
# has the wrong self type.
cfunc.entry = copy.copy(self.entry)
cfunc.entry.type = self.type
type_entry = self.type.args[0].type.entry
type_arg = ExprNodes.NameNode(self.pos, name=type_entry.name)
type_arg.entry = type_entry
cfunc = ExprNodes.AttributeNode(self.pos, obj=type_arg, attribute=self.entry.name)
skip_dispatch = not is_module_scope or Options.lookup_module_cpdef
c_call = ExprNodes.SimpleCallNode(
self.pos,
......@@ -2439,8 +2421,8 @@ class CFuncDefNode(FuncDefNode):
def generate_argument_parsing_code(self, env, code):
i = 0
used = 0
scope = self.local_scope
if self.type.optional_arg_count:
scope = self.local_scope
code.putln('if (%s) {' % Naming.optional_args_cname)
for arg in self.args:
if arg.default:
......@@ -2461,6 +2443,16 @@ class CFuncDefNode(FuncDefNode):
code.putln('}')
code.putln('}')
# Move arguments into closure if required
def put_into_closure(entry):
if entry.in_closure and not arg.default:
code.putln('%s = %s;' % (entry.cname, entry.original_cname))
code.put_var_incref(entry)
code.put_var_giveref(entry)
for arg in self.args:
put_into_closure(scope.lookup_here(arg.name))
def generate_argument_conversion_code(self, code):
pass
......
......@@ -816,6 +816,8 @@ class SwitchTransform(Visitor.CythonTransform):
if isinstance(cond, (ExprNodes.CoerceToTempNode,
ExprNodes.CoerceToBooleanNode)):
cond = cond.arg
elif isinstance(cond, ExprNodes.BoolBinopResultNode):
cond = cond.arg.arg
elif isinstance(cond, UtilNodes.EvalWithTempExprNode):
# this is what we get from the FlattenInListTransform
cond = cond.subexpression
......@@ -860,7 +862,7 @@ class SwitchTransform(Visitor.CythonTransform):
elif getattr(cond.operand1, 'entry', None) \
and cond.operand1.entry.is_const:
return not_in, cond.operand2, [cond.operand1]
elif isinstance(cond, ExprNodes.BoolBinopNode):
elif isinstance(cond, (ExprNodes.BoolBinopNode, ExprNodes.GenericBoolBinopNode)):
if cond.operator == 'or' or (allow_not_in and cond.operator == 'and'):
allow_not_in = (cond.operator == 'and')
not_in_1, t1, c1 = self.extract_conditions(cond.operand1, allow_not_in)
......
......@@ -2266,8 +2266,8 @@ class MarkClosureVisitor(CythonTransform):
def visit_CFuncDefNode(self, node):
self.visit_FuncDefNode(node)
if node.needs_closure:
error(node.pos, "closures inside cdef functions not yet supported")
if node.needs_closure and node.overridable:
error(node.pos, "closures inside cpdef functions not yet supported")
return node
def visit_LambdaNode(self, node):
......@@ -2406,8 +2406,11 @@ class CreateClosureClasses(CythonTransform):
return node
def visit_CFuncDefNode(self, node):
self.visitchildren(node)
return node
if not node.overridable:
return self.visit_FuncDefNode(node)
else:
self.visitchildren(node)
return node
class GilCheck(VisitorTransform):
......
#!/usr/bin/env python
#
# Cython -- enhanced main program
#
if __name__ == '__main__':
from Cython.Build.Cythonize import main
main()
......@@ -115,6 +115,77 @@ def unpatch_inspect_isfunction():
else:
inspect.isfunction = orig_isfunction
def def_to_cdef(source):
'''
Converts the module-level def methods into cdef methods, i.e.
@decorator
def foo([args]):
"""
[tests]
"""
[body]
becomes
def foo([args]):
"""
[tests]
"""
return foo_c([args])
cdef foo_c([args]):
[body]
'''
output = []
skip = False
def_node = re.compile(r'def (\w+)\(([^()*]*)\):').match
lines = iter(source.split('\n'))
for line in lines:
if not line.strip():
output.append(line)
continue
if skip:
if line[0] != ' ':
skip = False
else:
continue
if line[0] == '@':
skip = True
continue
m = def_node(line)
if m:
name = m.group(1)
args = m.group(2)
if args:
args_no_types = ", ".join(arg.split()[-1] for arg in args.split(','))
else:
args_no_types = ""
output.append("def %s(%s):" % (name, args_no_types))
line = next(lines)
if '"""' in line:
has_docstring = True
output.append(line)
for line in lines:
output.append(line)
if '"""' in line:
break
else:
has_docstring = False
output.append(" return %s_c(%s)" % (name, args_no_types))
output.append('')
output.append("cdef %s_c(%s):" % (name, args))
if not has_docstring:
output.append(line)
else:
output.append(line)
return '\n'.join(output)
def update_linetrace_extension(ext):
ext.define_macros.append(('CYTHON_TRACE', 1))
return ext
......@@ -331,7 +402,7 @@ def parse_tags(filepath):
if tag == 'tags':
tag = 'tag'
print("WARNING: test tags use the 'tag' directive, not 'tags' (%s)" % filepath)
if tag not in ('mode', 'tag', 'ticket', 'cython', 'distutils'):
if tag not in ('mode', 'tag', 'ticket', 'cython', 'distutils', 'preparse'):
print("WARNING: unknown test directive '%s' found (%s)" % (tag, filepath))
values = values.split(',')
tags[tag].extend(filter(None, [value.strip() for value in values]))
......@@ -532,19 +603,25 @@ class TestBuilder(object):
elif 'no-cpp' in tags['tag'] and 'cpp' in self.languages:
languages = list(languages)
languages.remove('cpp')
preparse_list = tags.get('preparse', ['id'])
tests = [ self.build_test(test_class, path, workdir, module, tags,
language, expect_errors, warning_errors)
for language in languages ]
language, expect_errors, warning_errors, preparse)
for language in languages
for preparse in preparse_list ]
return tests
def build_test(self, test_class, path, workdir, module, tags,
language, expect_errors, warning_errors):
language, expect_errors, warning_errors, preparse):
language_workdir = os.path.join(workdir, language)
if not os.path.exists(language_workdir):
os.makedirs(language_workdir)
workdir = os.path.join(language_workdir, module)
if preparse != 'id':
workdir += '_%s' % str(preparse)
return test_class(path, workdir, module, tags,
language=language,
preparse=preparse,
expect_errors=expect_errors,
annotate=self.annotate,
cleanup_workdir=self.cleanup_workdir,
......@@ -556,7 +633,7 @@ class TestBuilder(object):
warning_errors=warning_errors)
class CythonCompileTestCase(unittest.TestCase):
def __init__(self, test_directory, workdir, module, tags, language='c',
def __init__(self, test_directory, workdir, module, tags, language='c', preparse='id',
expect_errors=False, annotate=False, cleanup_workdir=True,
cleanup_sharedlibs=True, cleanup_failures=True, cython_only=False,
fork=True, language_level=2, warning_errors=False):
......@@ -565,6 +642,8 @@ class CythonCompileTestCase(unittest.TestCase):
self.workdir = workdir
self.module = module
self.language = language
self.preparse = preparse
self.name = module if self.preparse == "id" else "%s_%s" % (module, preparse)
self.expect_errors = expect_errors
self.annotate = annotate
self.cleanup_workdir = cleanup_workdir
......@@ -577,7 +656,7 @@ class CythonCompileTestCase(unittest.TestCase):
unittest.TestCase.__init__(self)
def shortDescription(self):
return "compiling (%s) %s" % (self.language, self.module)
return "compiling (%s) %s" % (self.language, self.name)
def setUp(self):
from Cython.Compiler import Options
......@@ -660,11 +739,16 @@ class CythonCompileTestCase(unittest.TestCase):
if is_related(filename)]
def copy_files(self, test_directory, target_directory, file_list):
# use symlink on Unix, copy on Windows
try:
copy = os.symlink
except AttributeError:
copy = shutil.copy
if self.preparse and self.preparse != 'id':
preparse_func = globals()[self.preparse]
def copy(src, dest):
open(dest, 'w').write(preparse_func(open(src).read()))
else:
# use symlink on Unix, copy on Windows
try:
copy = os.symlink
except AttributeError:
copy = shutil.copy
join = os.path.join
for filename in file_list:
......@@ -707,6 +791,12 @@ class CythonCompileTestCase(unittest.TestCase):
include_dirs.append(incdir)
source = self.find_module_source_file(
os.path.join(test_directory, module + '.pyx'))
if self.preparse == 'id':
source = self.find_module_source_file(
os.path.join(test_directory, module + '.pyx'))
else:
self.copy_files(test_directory, targetdir, [module + '.pyx'])
source = os.path.join(targetdir, module + '.pyx')
target = os.path.join(targetdir, self.build_target_filename(module))
if extra_compile_options is None:
......@@ -903,7 +993,7 @@ class CythonRunTestCase(CythonCompileTestCase):
if self.cython_only:
return CythonCompileTestCase.shortDescription(self)
else:
return "compiling (%s) and running %s" % (self.language, self.module)
return "compiling (%s) and running %s" % (self.language, self.name)
def run(self, result=None):
if result is None:
......@@ -1105,7 +1195,7 @@ class PartialTestResult(_TextTestResult):
class CythonUnitTestCase(CythonRunTestCase):
def shortDescription(self):
return "compiling (%s) tests in %s" % (self.language, self.module)
return "compiling (%s) tests in %s" % (self.language, self.name)
def run_tests(self, result, ext_so_path):
module = import_ext(self.module, ext_so_path)
......
......@@ -74,14 +74,15 @@ if 'setuptools' in sys.modules:
setuptools_extra_args['entry_points'] = {
'console_scripts': [
'cython = Cython.Compiler.Main:setuptools_main',
'cythonize = Cython.Build.Cythonize:main'
]
}
scripts = []
else:
if os.name == "posix":
scripts = ["bin/cython"]
scripts = ["bin/cython", 'bin/cythonize']
else:
scripts = ["cython.py"]
scripts = ["cython.py", "cythonize.py"]
if include_debugger:
if 'setuptools' in sys.modules:
......
......@@ -6,7 +6,6 @@ unsignedbehaviour_T184
missing_baseclass_in_predecl_T262
cfunc_call_tuple_args_T408
cpp_structs
closure_inside_cdef_T554
genexpr_iterable_lookup_T600
generator_expressions_in_class
for_from_pyvar_loop_T601
......
# mode: error
cdef cdef_yield():
def inner():
pass
cpdef cpdef_yield():
def inner():
pass
_ERRORS = u"""
3:5: closures inside cdef functions not yet supported
7:6: closures inside cdef functions not yet supported
3:6: closures inside cpdef functions not yet supported
"""
......@@ -38,3 +38,19 @@ cdef class SelfInClosure(object):
def nested():
return self.x, t.x
return nested
def call_closure_method_cdef_attr_c(self, Test t):
"""
>>> o = SelfInClosure()
>>> o.call_closure_method_cdef_attr_c(Test())()
(1, 2)
"""
return self.closure_method_cdef_attr_c(t)
cdef closure_method_cdef_attr_c(self, Test t):
t.x = 2
self._t = t
self.x = 1
def nested():
return self.x, t.x
return nested
# mode: run
# tag: closures
# preparse: id
# preparse: def_to_cdef
#
# closure_tests_1.pyx
#
......
# mode: run
# tag: closures
# preparse: id
# preparse: def_to_cdef
#
# closure_tests_2.pyx
#
......
# mode: run
# tag: closures
# preparse: id
# preparse: def_to_cdef
#
# closure_tests_3.pyx
#
......
# mode: run
# tag: closures
# preparse: id
# preparse: def_to_cdef
#
# closure_tests_4.pyx
#
......
# mode: run
# tag: closures
# ticket: 82
# preparse: id
# preparse: def_to_cdef
cimport cython
......
......@@ -390,8 +390,8 @@ def combined():
'//IntNode[@value = "4"]',
'//IntNode[@value = "5"]',
'//IntNode[@value = "7"]',
'//BoolBinopNode//PrimaryCmpNode',
'//BoolBinopNode[.//PrimaryCmpNode//IntNode[@value = "4"] and .//PrimaryCmpNode//IntNode[@value = "5"]]',
'//GenericBoolBinopNode//PrimaryCmpNode',
'//GenericBoolBinopNode[.//PrimaryCmpNode//IntNode[@value = "4"] and .//PrimaryCmpNode//IntNode[@value = "5"]]',
'//PrimaryCmpNode[.//IntNode[@value = "2"] and .//IntNode[@value = "4"]]',
'//PrimaryCmpNode[.//IntNode[@value = "5"] and .//IntNode[@value = "7"]]',
)
......@@ -423,11 +423,11 @@ def cascaded_cmp_with_partial_constants(a, b):
'//IntNode[@value = "4"]',
'//IntNode[@value = "5"]',
'//IntNode[@value = "7"]',
'//BoolBinopNode',
'//SingleAssignmentNode//BoolBinopNode',
'//SingleAssignmentNode//BoolBinopNode//NameNode[@name = "a"]',
'//SingleAssignmentNode//BoolBinopNode//NameNode[@name = "b"]',
'//BoolBinopNode[.//PrimaryCmpNode//IntNode[@value = "4"] and .//PrimaryCmpNode//IntNode[@value = "5"]]',
'//GenericBoolBinopNode',
'//SingleAssignmentNode//GenericBoolBinopNode',
'//SingleAssignmentNode//GenericBoolBinopNode//NameNode[@name = "a"]',
'//SingleAssignmentNode//GenericBoolBinopNode//NameNode[@name = "b"]',
'//GenericBoolBinopNode[.//PrimaryCmpNode//IntNode[@value = "4"] and .//PrimaryCmpNode//IntNode[@value = "5"]]',
'//BoolNode[@value = False]',
)
@cython.test_fail_if_path_exists(
......
......@@ -83,7 +83,7 @@ def m_tuple(int a):
return result
@cython.test_assert_path_exists("//SwitchStatNode")
@cython.test_fail_if_path_exists("//BoolBinopNode", "//PrimaryCmpNode")
@cython.test_fail_if_path_exists("//BoolBinopNode", "//GenericBoolBinopNode", "//PrimaryCmpNode")
def m_set(int a):
"""
>>> m_set(2)
......@@ -97,7 +97,7 @@ def m_set(int a):
cdef bytes bytes_string = b'abcdefg'
@cython.test_assert_path_exists("//PrimaryCmpNode")
@cython.test_fail_if_path_exists("//SwitchStatNode", "//BoolBinopNode")
@cython.test_fail_if_path_exists("//SwitchStatNode", "//BoolBinopNode", "//GenericBoolBinopNode")
def m_bytes(char a):
"""
>>> m_bytes(ord('f'))
......@@ -109,7 +109,7 @@ def m_bytes(char a):
return result
@cython.test_assert_path_exists("//SwitchStatNode")
@cython.test_fail_if_path_exists("//BoolBinopNode", "//PrimaryCmpNode")
@cython.test_fail_if_path_exists("//BoolBinopNode", "//GenericBoolBinopNode", "//PrimaryCmpNode")
def m_bytes_literal(char a):
"""
>>> m_bytes_literal(ord('f'))
......@@ -127,7 +127,7 @@ cdef unicode klingon_character = u'\uF8D2'
py_klingon_character = klingon_character
@cython.test_assert_path_exists("//PrimaryCmpNode")
@cython.test_fail_if_path_exists("//SwitchStatNode", "//BoolBinopNode")
@cython.test_fail_if_path_exists("//SwitchStatNode", "//GenericBoolBinopNode", "//BoolBinopNode")
def m_unicode(Py_UNICODE a, unicode unicode_string):
"""
>>> m_unicode(ord('f'), py_unicode_string)
......@@ -147,7 +147,7 @@ def m_unicode(Py_UNICODE a, unicode unicode_string):
return result
@cython.test_assert_path_exists("//SwitchStatNode")
@cython.test_fail_if_path_exists("//BoolBinopNode", "//PrimaryCmpNode")
@cython.test_fail_if_path_exists("//GenericBoolBinopNode", "//BoolBinopNode", "//PrimaryCmpNode")
def m_unicode_literal(Py_UNICODE a):
"""
>>> m_unicode_literal(ord('f'))
......@@ -160,7 +160,7 @@ def m_unicode_literal(Py_UNICODE a):
cdef int result = a not in u'abcdefg\u1234\uF8D2'
return result
@cython.test_assert_path_exists("//SwitchStatNode", "//BoolBinopNode")
@cython.test_assert_path_exists("//SwitchStatNode", "//GenericBoolBinopNode")
@cython.test_fail_if_path_exists("//PrimaryCmpNode")
def m_tuple_in_or_notin(int a):
"""
......@@ -174,7 +174,7 @@ def m_tuple_in_or_notin(int a):
cdef int result = a not in (1,2,3,4) or a in (3,4)
return result
@cython.test_assert_path_exists("//SwitchStatNode", "//BoolBinopNode")
@cython.test_assert_path_exists("//SwitchStatNode", "//GenericBoolBinopNode")
@cython.test_fail_if_path_exists("//PrimaryCmpNode")
def m_tuple_notin_or_notin(int a):
"""
......@@ -189,7 +189,7 @@ def m_tuple_notin_or_notin(int a):
return result
@cython.test_assert_path_exists("//SwitchStatNode")
@cython.test_fail_if_path_exists("//BoolBinopNode", "//PrimaryCmpNode")
@cython.test_fail_if_path_exists("//GenericBoolBinopNode", "//BoolBinopNode", "//PrimaryCmpNode")
def m_tuple_notin_and_notin(int a):
"""
>>> m_tuple_notin_and_notin(2)
......@@ -202,7 +202,7 @@ def m_tuple_notin_and_notin(int a):
cdef int result = a not in (1,2,3,4) and a not in (6,7)
return result
@cython.test_assert_path_exists("//SwitchStatNode", "//BoolBinopNode")
@cython.test_assert_path_exists("//SwitchStatNode", "//GenericBoolBinopNode")
@cython.test_fail_if_path_exists("//PrimaryCmpNode")
def m_tuple_notin_and_notin_overlap(int a):
"""
......@@ -217,7 +217,7 @@ def m_tuple_notin_and_notin_overlap(int a):
return result
@cython.test_assert_path_exists("//SwitchStatNode")
@cython.test_fail_if_path_exists("//BoolBinopNode", "//PrimaryCmpNode")
@cython.test_fail_if_path_exists("//GenericBoolBinopNode", "//BoolBinopNode", "//PrimaryCmpNode")
def conditional_int(int a):
"""
>>> conditional_int(1)
......@@ -230,7 +230,7 @@ def conditional_int(int a):
return 1 if a not in (1,2,3,4) else 2
@cython.test_assert_path_exists("//SwitchStatNode")
@cython.test_fail_if_path_exists("//BoolBinopNode", "//PrimaryCmpNode")
@cython.test_fail_if_path_exists("//GenericBoolBinopNode", "//BoolBinopNode", "//PrimaryCmpNode")
def conditional_object(int a):
"""
>>> conditional_object(1)
......@@ -243,7 +243,7 @@ def conditional_object(int a):
return 1 if a not in (1,2,3,4) else '2'
@cython.test_assert_path_exists("//SwitchStatNode")
@cython.test_fail_if_path_exists("//BoolBinopNode", "//PrimaryCmpNode")
@cython.test_fail_if_path_exists("//GenericBoolBinopNode", "//BoolBinopNode", "//PrimaryCmpNode")
def conditional_bytes(char a):
"""
>>> conditional_bytes(ord('a'))
......@@ -256,7 +256,7 @@ def conditional_bytes(char a):
return 1 if a not in b'abc' else '2'
@cython.test_assert_path_exists("//SwitchStatNode")
@cython.test_fail_if_path_exists("//BoolBinopNode", "//PrimaryCmpNode")
@cython.test_fail_if_path_exists("//GenericBoolBinopNode", "//BoolBinopNode", "//PrimaryCmpNode")
def conditional_unicode(Py_UNICODE a):
"""
>>> conditional_unicode(ord('a'))
......@@ -269,7 +269,7 @@ def conditional_unicode(Py_UNICODE a):
return 1 if a not in u'abc' else '2'
@cython.test_assert_path_exists("//SwitchStatNode")
@cython.test_fail_if_path_exists("//BoolBinopNode", "//PrimaryCmpNode")
@cython.test_fail_if_path_exists("//GenericBoolBinopNode", "//BoolBinopNode", "//PrimaryCmpNode")
def conditional_none(int a):
"""
>>> conditional_none(1)
......
Markdown is supported
0%
or
You are about to add 0 people to the discussion. Proceed with caution.
Finish editing this message first!
Please register or to comment