Commit d48da4fd authored by Stefan Behnel's avatar Stefan Behnel

clean up some code

parent b47fb4d0
from Visitor import CythonTransform
from ModuleNode import ModuleNode
from ExprNodes import *
from Errors import CompileError
from UtilityCode import CythonUtilityCode
from Code import UtilityCode, TempitaUtilityCode
import Interpreter
import PyrexTypes
import Naming
import Symtab
from Cython.Compiler.Visitor import CythonTransform
from Cython.Compiler.ModuleNode import ModuleNode
from Cython.Compiler.Errors import CompileError
from Cython.Compiler.UtilityCode import CythonUtilityCode
from Cython.Compiler.Code import UtilityCode, TempitaUtilityCode
from Cython.Compiler import Options
from Cython.Compiler import Interpreter
from Cython.Compiler import PyrexTypes
from Cython.Compiler import Naming
from Cython.Compiler import Symtab
def dedent(text, reindent=0):
......
......@@ -31,7 +31,6 @@ from Builtin import list_type, tuple_type, set_type, dict_type, \
unicode_type, str_type, bytes_type, type_type
import Builtin
import Symtab
import Options
from Cython import Utils
from Annotate import AnnotationItem
from Cython.Compiler import Future
......@@ -369,7 +368,7 @@ class ExprNode(Node):
def type_dependencies(self, env):
# Returns the list of entries whose types must be determined
# before the type of self can be infered.
# before the type of self can be inferred.
if hasattr(self, 'type') and self.type is not None:
return ()
return sum([node.type_dependencies(env) for node in self.subexpr_nodes()], ())
......@@ -609,8 +608,6 @@ class ExprNode(Node):
#
src = self
src_type = self.type
src_is_py_type = src_type.is_pyobject
dst_is_py_type = dst_type.is_pyobject
if self.check_for_coercion_error(dst_type):
return self
......@@ -944,7 +941,7 @@ class IntNode(ConstNode):
suitable_type = PyrexTypes.widest_numeric_type(suitable_type, self.type)
else:
# C literal or Python literal - split at 32bit boundary
if self.constant_result >= -2**31 and self.constant_result < 2**31:
if -2**31 <= self.constant_result < 2**31:
if self.type and self.type.is_int:
suitable_type = self.type
else:
......@@ -1175,7 +1172,7 @@ class UnicodeNode(PyConstNode):
# (DC00-DFFF) is likely there, too. If we don't find it,
# any second code unit cannot make for a surrogate pair by
# itself.
if c >= 0xD800 and c <= 0xDBFF:
if 0xD800 <= c <= 0xDBFF:
return True
return False
......@@ -1685,7 +1682,7 @@ class NameNode(AtomicExprNode):
Naming.module_cname,
interned_cname))
if not self.cf_is_null:
code.putln("}");
code.putln("}")
code.putln(code.error_goto_if_null(self.result(), self.pos))
code.put_gotref(self.py_result())
......@@ -1920,7 +1917,7 @@ class ImportNode(ExprNode):
# __import__(module_name, globals(), None, name_list, level)
#
# module_name StringNode dotted name of module. Empty module
# name means importing the parent package accourding
# name means importing the parent package according
# to level
# name_list ListNode or None list of names to be imported
# level int relative import level:
......@@ -2227,7 +2224,7 @@ class NextNode(AtomicExprNode):
# iterator IteratorNode
def __init__(self, iterator):
self.pos = iterator.pos
AtomicExprNode.__init__(self, iterator.pos)
self.iterator = iterator
def type_dependencies(self, env):
......@@ -2378,8 +2375,7 @@ class RawCNameExprNode(ExprNode):
subexprs = []
def __init__(self, pos, type=None, cname=None):
self.pos = pos
self.type = type
ExprNode.__init__(self, pos, type=type)
if cname is not None:
self.cname = cname
......@@ -2493,8 +2489,8 @@ class IndexNode(ExprNode):
# set by SingleAssignmentNode after analyse_types()
is_memslice_scalar_assignment = False
def __init__(self, pos, index, *args, **kw):
ExprNode.__init__(self, pos, index=index, *args, **kw)
def __init__(self, pos, index, **kw):
ExprNode.__init__(self, pos, index=index, **kw)
self._index = index
def calculate_constant_result(self):
......@@ -2577,7 +2573,7 @@ class IndexNode(ExprNode):
return base_type
elif isinstance(self.base, BytesNode):
#if env.global_scope().context.language_level >= 3:
# # infering 'char' can be made to work in Python 3 mode
# # inferring 'char' can be made to work in Python 3 mode
# return PyrexTypes.c_char_type
# Py2/3 return different types on indexing bytes objects
return py_object_type
......@@ -3272,10 +3268,8 @@ class IndexNode(ExprNode):
code.putln("%s = %s;" % (temp, index.result()))
# Generate buffer access code using these temps
import Buffer, MemoryView
import Buffer
buffer_entry = self.buffer_entry()
if buffer_entry.type.is_buffer:
negative_indices = buffer_entry.type.negative_indices
else:
......@@ -4226,12 +4220,10 @@ class InlinedDefNodeCallNode(CallNode):
class PythonCapiFunctionNode(ExprNode):
subexprs = []
def __init__(self, pos, py_name, cname, func_type, utility_code = None):
self.pos = pos
self.name = py_name
self.cname = cname
self.type = func_type
self.utility_code = utility_code
ExprNode.__init__(self, pos, name=py_name, cname=cname,
type=func_type, utility_code=utility_code)
def analyse_types(self, env):
pass
......@@ -4243,6 +4235,7 @@ class PythonCapiFunctionNode(ExprNode):
def calculate_result_code(self):
return self.cname
class PythonCapiCallNode(SimpleCallNode):
# Python C-API Function call (only created in transforms)
......@@ -4347,7 +4340,7 @@ class AsTupleNode(ExprNode):
subexprs = ['arg']
def calculate_constant_result(self):
self.constant_result = tuple(self.base.constant_result)
self.constant_result = tuple(self.arg.constant_result)
def compile_time_value(self, denv):
arg = self.arg.compile_time_value(denv)
......@@ -4604,7 +4597,6 @@ class AttributeNode(ExprNode):
else:
self.op = "."
if obj_type.has_attributes:
entry = None
if obj_type.attributes_known():
if (obj_type.is_memoryviewslice and not
obj_type.scope.lookup_here(self.attribute)):
......@@ -4880,7 +4872,7 @@ class StarredTargetNode(ExprNode):
is_temp = 1
def __init__(self, pos, target):
self.pos = pos
ExprNode.__init__(self, pos)
self.target = target
def analyse_declarations(self, env):
......@@ -6324,7 +6316,7 @@ class ClassCellNode(ExprNode):
'if (!%s) { PyErr_SetString(PyExc_SystemError, '
'"super(): empty __class__ cell"); %s }' % (
self.result(),
code.error_goto(self.pos)));
code.error_goto(self.pos)))
code.put_incref(self.result(), py_object_type)
......@@ -6613,9 +6605,10 @@ class InnerFunctionNode(PyCFunctionNode):
def self_result_code(self):
if self.needs_self_code:
return "((PyObject*)%s)" % (Naming.cur_scope_cname)
return "((PyObject*)%s)" % Naming.cur_scope_cname
return "NULL"
class CodeObjectNode(ExprNode):
# Create a PyCodeObject for a CyFunction instance.
#
......@@ -6864,7 +6857,7 @@ class YieldExprNode(ExprNode):
code.putln("/* return from generator, yielding value */")
code.putln("%s->resume_label = %d;" % (
Naming.generator_cname, self.label_num))
code.putln("return %s;" % Naming.retval_cname);
code.putln("return %s;" % Naming.retval_cname)
code.put_label(self.label_name)
for cname, save_cname, type in saved:
......@@ -6974,7 +6967,7 @@ class PyClassLocalsExprNode(AtomicExprNode):
def analyse_types(self, env):
self.type = self.pyclass_dict.type
self.is_tmep = 0
self.is_temp = False
def result(self):
return self.pyclass_dict.result()
......@@ -7195,7 +7188,7 @@ class UnaryMinusNode(UnopNode):
def get_constant_c_result_code(self):
value = self.operand.get_constant_c_result_code()
if value:
return "(-%s)" % (value)
return "(-%s)" % value
class TildeNode(UnopNode):
# unary '~' operator
......@@ -7512,7 +7505,8 @@ class CythonArrayNode(ExprNode):
base_type = self.operand.type
if not self.operand.type.is_ptr and not self.operand.type.is_array:
return error(self.operand.pos, ERR_NOT_POINTER)
error(self.operand.pos, ERR_NOT_POINTER)
return
# Dimension sizes of C array
array_dimension_sizes = []
......@@ -7523,21 +7517,25 @@ class CythonArrayNode(ExprNode):
elif base_type.is_ptr:
base_type = base_type.base_type
else:
return error()
error(self.pos, "unexpected base type %s found" % base_type)
return
if not (base_type.same_as(array_dtype) or base_type.is_void):
return error(self.operand.pos, ERR_BASE_TYPE)
error(self.operand.pos, ERR_BASE_TYPE)
return
elif self.operand.type.is_array and len(array_dimension_sizes) != ndim:
return error(self.operand.pos,
"Expected %d dimensions, array has %d dimensions" %
error(self.operand.pos,
"Expected %d dimensions, array has %d dimensions" %
(ndim, len(array_dimension_sizes)))
return
# Verify the start, stop and step values
# In case of a C array, use the size of C array in each dimension to
# get an automatic cast
for axis_no, axis in enumerate(axes):
if not axis.start.is_none:
return error(axis.start.pos, ERR_START)
error(axis.start.pos, ERR_START)
return
if axis.stop.is_none:
if array_dimension_sizes:
......@@ -7546,7 +7544,8 @@ class CythonArrayNode(ExprNode):
constant_result=dimsize,
type=PyrexTypes.c_int_type)
else:
return error(axis.pos, ERR_NOT_STOP)
error(axis.pos, ERR_NOT_STOP)
return
axis.stop.analyse_types(env)
shape = axis.stop.coerce_to(self.shape_type, env)
......@@ -7561,17 +7560,20 @@ class CythonArrayNode(ExprNode):
axis.step.analyse_types(env)
if (not axis.step.type.is_int and axis.step.is_literal and not
axis.step.type.is_error):
return error(axis.step.pos, "Expected an integer literal")
error(axis.step.pos, "Expected an integer literal")
return
if axis.step.compile_time_value(env) != 1:
return error(axis.step.pos, ERR_STEPS)
error(axis.step.pos, ERR_STEPS)
return
if axis_no == 0:
self.mode = "fortran"
elif not axis.step.is_none and not first_or_last:
# step provided in some other dimension
return error(axis.step.pos, ERR_STEPS)
error(axis.step.pos, ERR_STEPS)
return
if not self.operand.is_name:
self.operand = self.operand.coerce_to_temp(env)
......@@ -7891,8 +7893,6 @@ class BinopNode(ExprNode):
or self.operand2.type.is_cpp_class)
def analyse_cpp_operation(self, env):
type1 = self.operand1.type
type2 = self.operand2.type
entry = env.lookup_operator(self.operator, [self.operand1, self.operand2])
if not entry:
self.type_error()
......@@ -8080,7 +8080,7 @@ class NumBinopNode(BinopNode):
super(NumBinopNode, self).generate_result_code(code)
if self.overflow_check:
self.overflow_bit = code.funcstate.allocate_temp(PyrexTypes.c_int_type, manage_ref=False)
code.putln("%s = 0;" % self.overflow_bit);
code.putln("%s = 0;" % self.overflow_bit)
code.putln("%s = %s;" % (self.result(), self.calculate_result_code()))
code.putln("if (unlikely(%s)) {" % self.overflow_bit)
code.putln('PyErr_Format(PyExc_OverflowError, "value too large");')
......@@ -8115,10 +8115,10 @@ class NumBinopNode(BinopNode):
BinopNode.is_py_operation_types(self, type1, type2))
def py_operation_function(self):
fuction = self.py_functions[self.operator]
function_name = self.py_functions[self.operator]
if self.inplace:
fuction = fuction.replace('PyNumber_', 'PyNumber_InPlace')
return fuction
function_name = function_name.replace('PyNumber_', 'PyNumber_InPlace')
return function_name
py_functions = {
"|": "PyNumber_Or",
......@@ -8300,7 +8300,7 @@ class DivNode(NumBinopNode):
code.putln("if ((%s < 0) ^ (%s < 0)) {" % (
self.operand1.result(),
self.operand2.result()))
code.putln(code.set_error_info(self.pos));
code.putln(code.set_error_info(self.pos))
code.put("if (__Pyx_cdivision_warning(%(FILENAME)s, "
"%(LINENO)s)) " % {
'FILENAME': Naming.filename_cname,
......@@ -8565,7 +8565,7 @@ class CondExprNode(ExprNode):
def type_error(self):
if not (self.true_val.type.is_error or self.false_val.type.is_error):
error(self.pos, "Incompatable types in conditional expression (%s; %s)" %
error(self.pos, "Incompatible types in conditional expression (%s; %s)" %
(self.true_val.type, self.false_val.type))
self.type = PyrexTypes.error_type
......@@ -9269,7 +9269,7 @@ class CoercionNode(ExprNode):
constant_result = not_a_constant
def __init__(self, arg):
self.pos = arg.pos
super(CoercionNode, self).__init__(arg.pos)
self.arg = arg
if debug_coercion:
print("%s Coercing %s" % (self, self.arg))
......
......@@ -11,6 +11,7 @@ cython.declare(sys=object, os=object, copy=object,
absolute_path_length=cython.Py_ssize_t)
import sys, os, copy
from itertools import chain
import Builtin
from Errors import error, warning, InternalError, CompileError
......@@ -24,15 +25,13 @@ from Code import UtilityCode
from StringEncoding import EncodedString, escape_byte_string, split_string_literal
import Options
import DebugFlags
from Cython.Compiler import Errors
from itertools import chain
absolute_path_length = 0
def relative_position(pos):
"""
We embed the relative filename in the generated C file, since we
don't want to have to regnerate and compile all the source code
don't want to have to regenerate and compile all the source code
whenever the Python install directory moves (which could happen,
e.g,. when distributing binaries.)
......@@ -63,7 +62,7 @@ def embed_position(pos, docstring):
encoding = docstring.encoding
if encoding is not None:
try:
encoded_bytes = pos_line.encode(encoding)
pos_line.encode(encoding)
except UnicodeEncodeError:
encoding = None
......@@ -132,7 +131,7 @@ class Node(object):
is_terminator = 0
temps = None
# All descandants should set child_attrs to a list of the attributes
# All descendants should set child_attrs to a list of the attributes
# containing nodes considered "children" in the tree. Each such attribute
# can either contain a single node or a list of nodes. See Visitor.py.
child_attrs = None
......@@ -169,7 +168,7 @@ class Node(object):
"""Clone the node. This is defined as a shallow copy, except for member lists
amongst the child attributes (from get_child_accessors) which are also
copied. Lists containing child nodes are thus seen as a way for the node
to hold multiple children directly; the list is not treated as a seperate
to hold multiple children directly; the list is not treated as a separate
level in the tree."""
result = copy.copy(self)
for attrname in result.child_attrs:
......@@ -722,8 +721,7 @@ class CArgDeclNode(Node):
if is_self_arg:
self.base_type.is_self_arg = self.is_self_arg = True
if self.type is None:
# The parser may missinterpret names as types...
# We fix that here.
# The parser may misinterpret names as types. We fix that here.
if isinstance(self.declarator, CNameDeclaratorNode) and self.declarator.name == '':
if nonempty:
if self.base_type.is_basic_c_type:
......@@ -940,7 +938,9 @@ class CNestedBaseTypeNode(CBaseTypeNode):
# name string
# base_type CBaseTypeNode
child_attrs = ['base_type']
def analyse(self, env, could_be_name = None):
base_type = self.base_type.analyse(env)
if base_type is PyrexTypes.error_type:
......@@ -964,7 +964,6 @@ class TemplatedTypeNode(CBaseTypeNode):
# After analysis:
# type PyrexTypes.BufferType or PyrexTypes.CppClassType ...containing the right options
child_attrs = ["base_type_node", "positional_args",
"keyword_args", "dtype_node"]
......@@ -980,7 +979,7 @@ class TemplatedTypeNode(CBaseTypeNode):
if base_type.is_cpp_class:
# Templated class
if self.keyword_args and self.keyword_args.key_value_pairs:
error(self.pos, "c++ templates cannot take keyword arguments");
error(self.pos, "c++ templates cannot take keyword arguments")
self.type = PyrexTypes.error_type
else:
template_types = []
......@@ -1640,7 +1639,7 @@ class FuncDefNode(StatNode, BlockNode):
cenv.scope_class.type.declaration_code(''),
Naming.self_cname))
if lenv.is_passthrough:
code.putln("%s = %s;" % (Naming.cur_scope_cname, outer_scope_cname));
code.putln("%s = %s;" % (Naming.cur_scope_cname, outer_scope_cname))
elif self.needs_closure:
# inner closures own a reference to their outer parent
code.put_incref(outer_scope_cname, cenv.scope_class.type)
......@@ -1837,7 +1836,7 @@ class FuncDefNode(StatNode, BlockNode):
default_retval = self.return_type.default_value
err_val = self.error_value()
if err_val is None and default_retval:
err_val = default_retval
err_val = default_retval # FIXME: why is err_val not used?
if self.return_type.is_pyobject:
code.put_xgiveref(self.return_type.as_pyobject(Naming.retval_cname))
......@@ -1854,7 +1853,7 @@ class FuncDefNode(StatNode, BlockNode):
code.put_trace_return("Py_None")
if not lenv.nogil:
# GIL holding funcion
# GIL holding function
code.put_finish_refcount_context()
if acquire_gil or (lenv.nogil and lenv.has_with_gil_block):
......@@ -2509,7 +2508,7 @@ class DefNode(FuncDefNode):
self.py_wrapper.analyse_declarations(env)
def analyse_argument_types(self, env):
directive_locals = self.directive_locals = env.directives['locals']
self.directive_locals = env.directives['locals']
allow_none_for_extension_args = env.directives['allow_none_for_extension_args']
f2s = env.fused_to_specific
......@@ -2644,7 +2643,7 @@ class DefNode(FuncDefNode):
sig = self.entry.signature
expected_str = "%d" % sig.num_fixed_args()
if sig.has_generic_args:
expected_str = expected_str + " or more"
expected_str += " or more"
name = self.name
if name.startswith("__") and name.endswith("__"):
desc = "Special method"
......@@ -2767,10 +2766,9 @@ class DefNode(FuncDefNode):
return
arg_code_list = []
if self.entry.signature.has_dummy_arg:
if self.needs_outer_scope:
self_arg = 'PyObject *%s' % Naming.self_cname
else:
self_arg = 'CYTHON_UNUSED PyObject *%s' % Naming.self_cname
self_arg = 'PyObject *%s' % Naming.self_cname
if not self.needs_outer_scope:
self_arg = 'CYTHON_UNUSED ' + self_arg
arg_code_list.append(self_arg)
def arg_decl_code(arg):
......@@ -2780,9 +2778,9 @@ class DefNode(FuncDefNode):
else:
cname = entry.cname
decl = entry.type.declaration_code(cname)
if entry.cf_used:
return decl
return 'CYTHON_UNUSED ' + decl
if not entry.cf_used:
decl = 'CYTHON_UNUSED ' + decl
return decl
for arg in self.args:
arg_code_list.append(arg_decl_code(arg))
......@@ -3646,7 +3644,7 @@ class GeneratorDefNode(DefNode):
code.put_incref(classobj_cname, py_object_type)
code.put_giveref(classobj_cname)
code.put_finish_refcount_context()
code.putln('return (PyObject *) gen;');
code.putln('return (PyObject *) gen;')
code.putln('}')
def generate_function_definitions(self, env, code):
......@@ -3690,7 +3688,7 @@ class GeneratorBodyDefNode(DefNode):
if proto:
code.putln('%s; /* proto */' % header)
else:
code.putln('%s /* generator body */\n{' % header);
code.putln('%s /* generator body */\n{' % header)
def generate_function_definitions(self, env, code):
lenv = self.local_scope
......@@ -3796,10 +3794,9 @@ class OverrideCheckNode(StatNode):
first_arg = 1
import ExprNodes
self.func_node = ExprNodes.RawCNameExprNode(self.pos, py_object_type)
call_tuple = ExprNodes.TupleNode(self.pos, args=[ExprNodes.NameNode(self.pos, name=arg.name) for arg in self.args[first_arg:]])
call_node = ExprNodes.SimpleCallNode(self.pos,
function=self.func_node,
args=[ExprNodes.NameNode(self.pos, name=arg.name) for arg in self.args[first_arg:]])
call_node = ExprNodes.SimpleCallNode(
self.pos, function=self.func_node,
args=[ExprNodes.NameNode(self.pos, name=arg.name) for arg in self.args[first_arg:]])
self.body = ReturnStatNode(self.pos, value=call_node)
self.body.analyse_expressions(env)
......@@ -3812,7 +3809,7 @@ class OverrideCheckNode(StatNode):
self_arg = "((PyObject *)%s)" % self.args[0].cname
code.putln("/* Check if called by wrapper */")
code.putln("if (unlikely(%s)) ;" % Naming.skip_dispatch_cname)
code.putln("/* Check if overriden in Python */")
code.putln("/* Check if overridden in Python */")
if self.py_func.is_module_scope:
code.putln("else {")
else:
......@@ -4134,7 +4131,7 @@ class CClassDefNode(ClassDefNode):
if not base_class_entry.is_type:
error(self.pos, "'%s' is not a type name" % self.base_class_name)
elif not base_class_entry.type.is_extension_type and \
not (base_class_entry.type.is_builtin_type and \
not (base_class_entry.type.is_builtin_type and
base_class_entry.type.objstruct_cname):
error(self.pos, "'%s' is not an extension type" % self.base_class_name)
elif not base_class_entry.type.is_complete():
......@@ -4542,8 +4539,8 @@ class CascadedAssignmentNode(AssignmentNode):
def annotate(self, code):
for i in range(len(self.lhs_list)):
lhs = self.lhs_list[i].annotate(code)
rhs = self.coerced_rhs_list[i].annotate(code)
self.lhs_list[i].annotate(code)
self.coerced_rhs_list[i].annotate(code)
self.rhs.annotate(code)
......@@ -5581,10 +5578,9 @@ class ForFromStatNode(LoopNode, StatNode):
self.bound2.analyse_types(env)
if self.step is not None:
if isinstance(self.step, ExprNodes.UnaryMinusNode):
warning(self.step.pos, "Probable infinite loop in for-from-by statment. Consider switching the directions of the relations.", 2)
warning(self.step.pos, "Probable infinite loop in for-from-by statement. Consider switching the directions of the relations.", 2)
self.step.analyse_types(env)
target_type = self.target.type
if self.target.type.is_numeric:
loop_type = self.target.type
else:
......@@ -5927,7 +5923,7 @@ class TryExceptStatNode(StatNode):
try_end_label = code.new_label('try_end')
exc_save_vars = [code.funcstate.allocate_temp(py_object_type, False)
for i in xrange(3)]
for _ in xrange(3)]
code.putln("{")
code.putln("__Pyx_ExceptionSave(%s);" %
', '.join(['&%s' % var for var in exc_save_vars]))
......@@ -6047,8 +6043,6 @@ class ExceptClauseNode(Node):
self.body.analyse_declarations(env)
def analyse_expressions(self, env):
import ExprNodes
genv = env.global_scope()
self.function_name = env.qualified_name
if self.pattern:
# normalise/unpack self.pattern into a list
......@@ -6057,12 +6051,13 @@ class ExceptClauseNode(Node):
self.pattern[i] = pattern.coerce_to_pyobject(env)
if self.target:
import ExprNodes
self.exc_value = ExprNodes.ExcValueNode(self.pos, env)
self.target.analyse_target_expression(env, self.exc_value)
if self.excinfo_target is not None:
import ExprNodes
self.excinfo_tuple = ExprNodes.TupleNode(pos=self.pos, args=[
ExprNodes.ExcValueNode(pos=self.pos, env=env) for x in range(3)])
ExprNodes.ExcValueNode(pos=self.pos, env=env) for _ in range(3)])
self.excinfo_tuple.analyse_expressions(env)
self.body.analyse_expressions(env)
......@@ -6099,7 +6094,7 @@ class ExceptClauseNode(Node):
exc_vars = [code.funcstate.allocate_temp(py_object_type,
manage_ref=True)
for i in xrange(3)]
for _ in xrange(3)]
code.put_add_traceback(self.function_name)
# We always have to fetch the exception value even if
# there is no target, because this also normalises the
......@@ -6957,8 +6952,6 @@ class ParallelStatNode(StatNode, ParallelNode):
code.globalstate.use_utility_code(
invalid_values_utility_code)
first = False
have_invalid_values = True
code.putln("%s = %s;" % (entry.cname,
entry.type.cast_code(invalid_value)))
......@@ -6992,7 +6985,7 @@ class ParallelStatNode(StatNode, ParallelNode):
"""
self.modified_entries = []
for entry, (pos, op) in self.assignments.iteritems():
for entry in self.assignments:
if entry.from_closure or entry.in_closure:
self._allocate_closure_temp(code, entry)
......@@ -7142,7 +7135,6 @@ class ParallelStatNode(StatNode, ParallelNode):
"""
save_lastprivates_label = code.new_label()
dont_return_label = code.new_label()
insertion_point = code.insertion_point()
self.any_label_used = False
self.breaking_label_used = False
......@@ -7501,8 +7493,8 @@ class ParallelRangeNode(ParallelStatNode):
(self.schedule,))
def analyse_expressions(self, env):
was_nogil = env.nogil
if self.nogil:
was_nogil = env.nogil
env.nogil = True
if self.target is None:
......@@ -7860,7 +7852,6 @@ class CnameDecoratorNode(StatNode):
if entry.func_cname:
entry.func_cname = self.mangle(entry.cname)
if entry.pyfunc_cname:
old = entry.pyfunc_cname
entry.pyfunc_cname = self.mangle(entry.pyfunc_cname)
def mangle(self, cname):
......
......@@ -447,7 +447,7 @@ class MemoryViewSliceType(PyrexType):
has_attributes = 1
scope = None
# These are specialcased in Defnode
# These are special cased in Defnode
from_py_function = None
to_py_function = None
......@@ -457,7 +457,7 @@ class MemoryViewSliceType(PyrexType):
subtypes = ['dtype']
def __init__(self, base_dtype, axes):
'''
"""
MemoryViewSliceType(base, axes)
Base is the C base type; axes is a list of (access, packing) strings,
......@@ -489,7 +489,7 @@ class MemoryViewSliceType(PyrexType):
Fortran-contiguous memory has 'direct' as the access spec, 'contig' as
the *first* axis' packing spec and 'follow' for all other packing
specs.
'''
"""
import MemoryView
self.dtype = base_dtype
......@@ -684,8 +684,6 @@ class MemoryViewSliceType(PyrexType):
return "__pyx_memoryview_fromslice(%s, %s, %s, %s, %d);" % tup
def dtype_object_conversion_funcs(self, env):
import MemoryView, Code
get_function = "__pyx_memview_get_%s" % self.dtype_name
set_function = "__pyx_memview_set_%s" % self.dtype_name
......@@ -724,13 +722,13 @@ class MemoryViewSliceType(PyrexType):
return get_function, set_function
def axes_to_code(self):
"Return a list of code constants for each axis"
"""Return a list of code constants for each axis"""
import MemoryView
d = MemoryView._spec_to_const
return ["(%s | %s)" % (d[a], d[p]) for a, p in self.axes]
def axes_to_name(self):
"Return an abbreviated name for our axes"
"""Return an abbreviated name for our axes"""
import MemoryView
d = MemoryView._spec_to_abbrev
return "".join(["%s%s" % (d[a], d[p]) for a, p in self.axes])
......@@ -763,7 +761,7 @@ class MemoryViewSliceType(PyrexType):
return "%s[%s]" % (dtype_name, ", ".join(axes_code_list))
def specialize(self, values):
"This does not validate the base type!!"
"""This does not validate the base type!!"""
dtype = self.dtype.specialize(values)
if dtype is not self.dtype:
return MemoryViewSliceType(dtype, self.axes)
......@@ -868,7 +866,7 @@ class PyObjectType(PyrexType):
return True
def default_coerced_ctype(self):
"The default C type that this Python type coerces to, or None."
"""The default C type that this Python type coerces to, or None."""
return None
def assignable_from(self, src_type):
......@@ -990,7 +988,7 @@ class BuiltinObjectType(PyObjectType):
type_check = self.type_check_function(exact=True)
check = 'likely(%s(%s))' % (type_check, arg)
if not notnone:
check = check + ('||((%s) == Py_None)' % arg)
check += '||((%s) == Py_None)' % arg
error = '(PyErr_Format(PyExc_TypeError, "Expected %s, got %%.200s", Py_TYPE(%s)->tp_name), 0)' % (self.name, arg)
return check + '||' + error
......@@ -1198,7 +1196,7 @@ class CConstType(BaseType):
if base_type == self.const_base_type:
return self
else:
return ConstType(base_type)
return CConstType(base_type)
def create_to_py_utility_code(self, env):
if self.const_base_type.create_to_py_utility_code(env):
......@@ -1330,7 +1328,7 @@ class CNumericType(CType):
visibility="extern")
scope.parent_type = self
scope.directives = {}
entry = scope.declare_cfunction(
scope.declare_cfunction(
"conjugate",
CFuncType(self, [CFuncTypeArg("self", self, None)], nogil=True),
pos=None,
......@@ -1339,7 +1337,7 @@ class CNumericType(CType):
return True
def __lt__(self, other):
"Sort based on rank, preferring signed over unsigned"
"""Sort based on rank, preferring signed over unsigned"""
if other.is_numeric:
return self.rank > other.rank and self.signed >= other.signed
......@@ -1928,7 +1926,7 @@ class CComplexType(CNumericType):
scope.directives = {}
scope.declare_var("real", self.real_type, None, cname="real", is_cdef=True)
scope.declare_var("imag", self.real_type, None, cname="imag", is_cdef=True)
entry = scope.declare_cfunction(
scope.declare_cfunction(
"conjugate",
CFuncType(self, [CFuncTypeArg("self", self, None)], nogil=True),
pos=None,
......@@ -2790,7 +2788,7 @@ class CFuncType(CType):
return result
def get_fused_types(self, result=None, seen=None, subtypes=None):
"Return fused types in the order they appear as parameter types"
"""Return fused types in the order they appear as parameter types"""
return super(CFuncType, self).get_fused_types(result, seen,
subtypes=['args'])
......@@ -3223,8 +3221,8 @@ class CppClassType(CType):
def specialize_here(self, pos, template_values = None):
if self.templates is None:
error(pos, "'%s' type is not a template" % self);
return PyrexTypes.error_type
error(pos, "'%s' type is not a template" % self)
return error_type
if len(self.templates) != len(template_values):
error(pos, "%s templated type receives %d arguments, got %d" %
(self.name, len(self.templates), len(template_values)))
......@@ -3625,8 +3623,6 @@ def best_match(args, functions, pos=None, env=None):
the same weight, we return None (as there is no best match). If pos
is not None, we also generate an error.
"""
from Cython import Utils
# TODO: args should be a list of types, not a list of Nodes.
actual_nargs = len(args)
......
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