Commit d683abd3 authored by Dag Sverre Seljebotn's avatar Dag Sverre Seljebotn

merge

parents 31b7fc8e cdafb863
......@@ -368,8 +368,12 @@ def put_buffer_lookup_code(entry, index_signeds, index_cnames, directives, pos,
code.putln("%s = %d;" % (tmp_cname, dim))
code.put("} else ")
# check bounds in positive direction
if signed != 0:
cast = ""
else:
cast = "(size_t)"
code.putln("if (%s) %s = %d;" % (
code.unlikely("%s >= %s" % (cname, shape.cname)),
code.unlikely("%s >= %s%s" % (cname, cast, shape.cname)),
tmp_cname, dim))
code.globalstate.use_utility_code(raise_indexerror_code)
code.putln("if (%s) {" % code.unlikely("%s != -1" % tmp_cname))
......
......@@ -10,7 +10,7 @@ debug_temp_code_comments = 0
debug_trace_code_generation = 0
# Do not replace exceptions with user-friendly error messages
debug_no_exception_intercept = 1
debug_no_exception_intercept = 0
# Print a message each time a new stage in the pipeline is entered
debug_verbose_pipeline = 0
......@@ -1934,7 +1934,6 @@ class IndexNode(ExprNode):
self.index.type)
elif self.base.type.is_cpp_class:
function = env.lookup_operator("[]", [self.base, self.index])
function = self.base.type.scope.lookup("operator[]")
if function is None:
error(self.pos, "Indexing '%s' not supported for index type '%s'" % (self.base.type, self.index.type))
self.type = PyrexTypes.error_type
......@@ -1946,7 +1945,7 @@ class IndexNode(ExprNode):
self.index = self.index.coerce_to(func_type.args[0].type, env)
self.type = func_type.return_type
if setting and not func_type.return_type.is_reference:
error(self.pos, "Can't set non-reference '%s'" % self.type)
error(self.pos, "Can't set non-reference result '%s'" % self.type)
else:
error(self.pos,
"Attempting to index non-array type '%s'" %
......@@ -2464,6 +2463,9 @@ class CallNode(ExprNode):
self.function.set_cname(type.declaration_code(""))
self.analyse_c_function_call(env)
return True
def is_lvalue(self):
return self.type.is_reference
def nogil_check(self, env):
func_type = self.function_type()
......@@ -4205,7 +4207,7 @@ class UnopNode(ExprNode):
def is_cpp_operation(self):
type = self.operand.type
return type.is_cpp_class or type.is_reference and type.base_type.is_cpp_class
return type.is_cpp_class
def coerce_operand_to_pyobject(self, env):
self.operand = self.operand.coerce_to_pyobject(env)
......@@ -4232,7 +4234,7 @@ class UnopNode(ExprNode):
def analyse_cpp_operation(self, env):
type = self.operand.type
if type.is_ptr or type.is_reference:
if type.is_ptr:
type = type.base_type
function = type.scope.lookup("operator%s" % self.operator)
if not function:
......@@ -4749,14 +4751,8 @@ class BinopNode(ExprNode):
return type1.is_pyobject or type2.is_pyobject
def is_cpp_operation(self):
type1 = self.operand1.type
type2 = self.operand2.type
if type1.is_reference:
type1 = type1.base_type
if type2.is_reference:
type2 = type2.base_type
return (type1.is_cpp_class
or type2.is_cpp_class)
return (self.operand1.type.is_cpp_class
or self.operand2.type.is_cpp_class)
def analyse_cpp_operation(self, env):
type1 = self.operand1.type
......@@ -5405,13 +5401,7 @@ class CmpNode(object):
return result
def is_cpp_comparison(self):
type1 = self.operand1.type
type2 = self.operand2.type
if type1.is_reference:
type1 = type1.base_type
if type2.is_reference:
type2 = type2.base_type
return type1.is_cpp_class or type2.is_cpp_class
return self.operand1.type.is_cpp_class or self.operand2.type.is_cpp_class
def find_common_int_type(self, env, op, operand1, operand2):
# type1 != type2 and at least one of the types is not a C int
......
......@@ -9,5 +9,6 @@ def _get_feature(name):
unicode_literals = _get_feature("unicode_literals")
with_statement = _get_feature("with_statement")
division = _get_feature("division")
print_function = _get_feature("print_function")
del _get_feature
......@@ -426,6 +426,11 @@ class ModuleNode(Nodes.Node, Nodes.BlockNode):
code.globalstate["end"].putln("#endif /* Py_PYTHON_H */")
code.put("""
#include <stddef.h> /* For offsetof */
#ifndef offsetof
#define offsetof(type, member) ( (size_t) & ((type*)0) -> member )
#endif
#ifndef PY_LONG_LONG
#define PY_LONG_LONG LONG_LONG
#endif
......@@ -903,7 +908,6 @@ class ModuleNode(Nodes.Node, Nodes.BlockNode):
self.generate_descr_set_function(scope, code)
self.generate_property_accessors(scope, code)
self.generate_method_table(scope, code)
self.generate_member_table(scope, code)
self.generate_getset_table(scope, code)
self.generate_typeobj_definition(full_module_name, entry, code)
......@@ -1529,34 +1533,6 @@ class ModuleNode(Nodes.Node, Nodes.BlockNode):
code.putln(
"};")
def generate_member_table(self, env, code):
#print "ModuleNode.generate_member_table: scope =", env ###
if env.public_attr_entries:
code.putln("")
code.putln(
"static struct PyMemberDef %s[] = {" %
env.member_table_cname)
type = env.parent_type
if type.typedef_flag:
objstruct = type.objstruct_cname
else:
objstruct = "struct %s" % type.objstruct_cname
for entry in env.public_attr_entries:
type_code = entry.type.pymemberdef_typecode
if entry.visibility == 'readonly':
flags = "READONLY"
else:
flags = "0"
code.putln('{(char *)"%s", %s, %s, %s, 0},' % (
entry.name,
type_code,
"offsetof(%s, %s)" % (objstruct, entry.cname),
flags))
code.putln(
"{0, 0, 0, 0, 0}")
code.putln(
"};")
def generate_getset_table(self, env, code):
if env.property_entries:
code.putln("")
......
......@@ -891,13 +891,13 @@ class CVarDefNode(StatNode):
# declarators [CDeclaratorNode]
# in_pxd boolean
# api boolean
# need_properties [entry]
# properties [entry]
# decorators [cython.locals(...)] or None
# directive_locals { string : NameNode } locals defined by cython.locals(...)
child_attrs = ["base_type", "declarators"]
need_properties = ()
properties = ()
decorators = None
directive_locals = {}
......@@ -912,15 +912,12 @@ class CVarDefNode(StatNode):
# so do conversion ourself rather than rely on the CPython mechanism (through
# a property; made in AnalyseDeclarationsTransform).
if (dest_scope.is_c_class_scope
and self.visibility == 'public'
and base_type.is_pyobject
and (base_type.is_builtin_type or base_type.is_extension_type)):
self.need_properties = []
and self.visibility in ('public', 'readonly')):
self.properties = []
need_property = True
visibility = 'private'
else:
need_property = False
visibility = self.visibility
visibility = self.visibility
for declarator in self.declarators:
name_declarator, type = declarator.analyse(base_type, env)
......@@ -951,8 +948,7 @@ class CVarDefNode(StatNode):
entry = dest_scope.declare_var(name, type, declarator.pos,
cname = cname, visibility = visibility, is_cdef = 1)
if need_property:
self.need_properties.append(entry)
entry.needs_property = 1
self.properties.append(entry)
class CStructOrUnionDefNode(StatNode):
......@@ -5134,10 +5130,10 @@ static int __Pyx_Print(PyObject* stream, PyObject *arg_tuple, int newline) {
return -1;
end_string = PyUnicode_FromStringAndSize(" ", 1);
if (unlikely(!end_string))
goto bad;
return -1;
if (PyDict_SetItemString(%(PRINT_KWARGS)s, "end", end_string) < 0) {
Py_DECREF(end_string);
goto bad;
return -1;
}
Py_DECREF(end_string);
}
......
......@@ -952,6 +952,11 @@ property NAME:
def __set__(self, value):
ATTR = value
""", level='c_class')
basic_property_ro = TreeFragment(u"""
property NAME:
def __get__(self):
return ATTR
""", level='c_class')
def __call__(self, root):
self.env_stack = [root.scope]
......@@ -1037,12 +1042,9 @@ property NAME:
# to ensure all CNameDeclaratorNodes are visited.
self.visitchildren(node)
if node.need_properties:
# cdef public attributes may need type testing on
# assignment, so we create a property accesss
# mechanism for them.
if node.properties:
stats = []
for entry in node.need_properties:
for entry in node.properties:
property = self.create_Property(entry)
property.analyse_declarations(node.dest_scope)
self.visit(property)
......@@ -1052,13 +1054,34 @@ property NAME:
return None
def create_Property(self, entry):
template = self.basic_property
if entry.visibility == 'public':
template = self.basic_property
elif entry.visibility == 'readonly':
template = self.basic_property_ro
property = template.substitute({
u"ATTR": AttributeNode(pos=entry.pos,
obj=NameNode(pos=entry.pos, name="self"),
attribute=entry.name),
}, pos=entry.pos).stats[0]
property.name = entry.name
# ---------------------------------------
# XXX This should go to AutoDocTransforms
# ---------------------------------------
if self.current_directives['embedsignature']:
attr_name = entry.name
type_name = entry.type.declaration_code("", for_display=1)
default_value = ''
if not entry.type.is_pyobject:
type_name = "'%s'" % type_name
elif entry.type.is_extension_type:
type_name = entry.type.module_name + '.' + type_name
if entry.init is not None:
default_value = ' = ' + entry.init
elif entry.init_to_none:
default_value = ' = ' + repr(None)
docstring = attr_name + ': ' + type_name + default_value
property.doc = EncodedString(docstring)
# ---------------------------------------
return property
class AnalyseExpressionsTransform(CythonTransform):
......
......@@ -13,10 +13,10 @@ import sys
try:
from __builtin__ import set
except ImportError:
except (ImportError, AttributeError):
try:
from builtins import set
except ImportError:
except (ImportError, AttributeError):
from sets import Set as set
from Cython.Compiler.Scanning import PyrexScanner, FileSourceDescriptor
......@@ -1745,13 +1745,13 @@ def p_c_simple_base_type(s, self_flag, nonempty, templates = None):
# Make sure this is not a declaration of a variable or function.
if s.sy == '(':
s.next()
if s.sy == '*' or s.sy == '**':
if s.sy == '*' or s.sy == '**' or s.sy == '&':
s.put_back('(', '(')
else:
s.put_back('(', '(')
s.put_back('IDENT', name)
name = None
elif s.sy not in ('*', '**', '['):
elif s.sy not in ('*', '**', '[', '&'):
s.put_back('IDENT', name)
name = None
......@@ -1984,7 +1984,7 @@ def p_c_simple_declarator(s, ctx, empty, is_type, cmethod_flag,
error(s.position(), "Declarator should be empty")
s.next()
cname = p_opt_cname(s)
if s.sy == '=' and assignable:
if name != "operator" and s.sy == '=' and assignable:
s.next()
rhs = p_simple_expr(s)
else:
......
......@@ -56,7 +56,6 @@ class PyrexType(BaseType):
# is_buffer boolean Is buffer access type
# has_attributes boolean Has C dot-selectable attributes
# default_value string Initial value
# pymemberdef_typecode string Type code for PyMemberDef struct
#
# declaration_code(entity_code,
# for_display = 0, dll_linkage = None, pyrex = 0)
......@@ -109,7 +108,6 @@ class PyrexType(BaseType):
is_buffer = 0
has_attributes = 0
default_value = ""
pymemberdef_typecode = None
def resolve(self):
# If a typedef, returns the base type.
......@@ -198,18 +196,6 @@ class CTypedefType(BaseType):
self.typedef_cname = cname
self.typedef_base_type = base_type
self.typedef_is_external = is_external
# Make typecodes in external typedefs use typesize-neutral macros
if is_external:
typecode = None
if base_type.is_int:
if base_type.signed == 0:
typecode = "__Pyx_T_UNSIGNED_INT"
else:
typecode = "__Pyx_T_SIGNED_INT"
elif base_type.is_float and not rank_to_type_name[base_type.rank] == "long double":
typecode = "__Pyx_T_FLOATING"
if typecode:
self.pymemberdef_typecode = "%s(%s)" % (typecode, cname)
def resolve(self):
return self.typedef_base_type.resolve()
......@@ -228,8 +214,9 @@ class CTypedefType(BaseType):
def cast_code(self, expr_code):
# If self is really an array (rather than pointer), we can't cast.
# For example, the gmp mpz_t.
if self.typedef_base_type.is_ptr:
return self.typedef_base_type.cast_code(expr_code)
if self.typedef_base_type.is_array:
base_type = self.typedef_base_type.base_type
return CPtrType(base_type).cast_code(expr_code)
else:
return BaseType.cast_code(self, expr_code)
......@@ -348,7 +335,6 @@ class PyObjectType(PyrexType):
name = "object"
is_pyobject = 1
default_value = "0"
pymemberdef_typecode = "T_OBJECT"
buffer_defaults = None
is_extern = False
is_subclassed = False
......@@ -617,10 +603,9 @@ class CNumericType(CType):
sign_words = ("unsigned ", "", "signed ")
def __init__(self, rank, signed = 1, pymemberdef_typecode = None):
def __init__(self, rank, signed = 1):
self.rank = rank
self.signed = signed
self.pymemberdef_typecode = pymemberdef_typecode
def sign_and_name(self):
s = self.sign_words[self.signed]
......@@ -786,8 +771,8 @@ class CIntType(CNumericType):
from_py_function = "__Pyx_PyInt_AsInt"
exception_value = -1
def __init__(self, rank, signed, pymemberdef_typecode = None, is_returncode = 0):
CNumericType.__init__(self, rank, signed, pymemberdef_typecode)
def __init__(self, rank, signed, is_returncode = 0):
CNumericType.__init__(self, rank, signed)
self.is_returncode = is_returncode
if self.from_py_function == "__Pyx_PyInt_AsInt":
self.from_py_function = self.get_type_conversion()
......@@ -886,8 +871,8 @@ class CFloatType(CNumericType):
exception_value = -1
def __init__(self, rank, pymemberdef_typecode = None, math_h_modifier = ''):
CNumericType.__init__(self, rank, 1, pymemberdef_typecode)
def __init__(self, rank, math_h_modifier = ''):
CNumericType.__init__(self, rank, 1)
self.math_h_modifier = math_h_modifier
def assignable_from_resolved_type(self, src_type):
......@@ -1353,43 +1338,40 @@ class CNullPtrType(CPtrType):
is_null_ptr = 1
class CReferenceType(CType):
class CReferenceType(BaseType):
is_reference = 1
def __init__(self, base_type):
self.base_type = base_type
self.ref_base_type = base_type
def __repr__(self):
return "<CReferenceType %s>" % repr(self.base_type)
def same_as_resolved_type(self, other_type):
return other_type.is_reference and self.base_type.same_as(other_type.base_type)
return "<CReferenceType %s>" % repr(self.ref_base_type)
def __str__(self):
return "%s &" % self.ref_base_type
def as_argument_type(self):
return self
def declaration_code(self, entity_code,
for_display = 0, dll_linkage = None, pyrex = 0):
#print "CReferenceType.declaration_code: pointer to", self.base_type ###
return self.base_type.declaration_code(
return self.ref_base_type.declaration_code(
"&%s" % entity_code,
for_display, dll_linkage, pyrex)
def assignable_from_resolved_type(self, other_type):
if other_type is error_type:
return 1
elif other_type.is_reference and self.base_type == other_type.base_type:
return 1
elif other_type == self.base_type:
return 1
else: #for now
return 0
def specialize(self, values):
base_type = self.base_type.specialize(values)
if base_type == self.base_type:
base_type = self.ref_base_type.specialize(values)
if base_type == self.ref_base_type:
return self
else:
return CReferenceType(base_type)
def __getattr__(self, name):
return getattr(self.ref_base_type, name)
class CFuncType(CType):
# return_type CType
# args [CFuncTypeArg]
......@@ -1990,7 +1972,6 @@ class CStringType(object):
class CUTF8CharArrayType(CStringType, CArrayType):
# C 'char []' type.
pymemberdef_typecode = "T_STRING_INPLACE"
is_unicode = 1
to_py_function = "PyUnicode_DecodeUTF8"
......@@ -2002,8 +1983,6 @@ class CUTF8CharArrayType(CStringType, CArrayType):
class CCharArrayType(CStringType, CArrayType):
# C 'char []' type.
pymemberdef_typecode = "T_STRING_INPLACE"
def __init__(self, size):
CArrayType.__init__(self, c_char_type, size)
......@@ -2011,8 +1990,6 @@ class CCharArrayType(CStringType, CArrayType):
class CCharPtrType(CStringType, CPtrType):
# C 'char *' type.
pymemberdef_typecode = "T_STRING"
def __init__(self):
CPtrType.__init__(self, c_char_type)
......@@ -2020,8 +1997,6 @@ class CCharPtrType(CStringType, CPtrType):
class CUCharPtrType(CStringType, CPtrType):
# C 'unsigned char *' type.
pymemberdef_typecode = "T_STRING"
to_py_function = "__Pyx_PyBytes_FromUString"
from_py_function = "__Pyx_PyBytes_AsUString"
......@@ -2087,30 +2062,30 @@ c_void_type = CVoidType()
c_void_ptr_type = CPtrType(c_void_type)
c_void_ptr_ptr_type = CPtrType(c_void_ptr_type)
c_uchar_type = CIntType(0, 0, "T_UBYTE")
c_ushort_type = CIntType(1, 0, "T_USHORT")
c_uint_type = CUIntType(2, 0, "T_UINT")
c_ulong_type = CULongType(3, 0, "T_ULONG")
c_ulonglong_type = CULongLongType(6, 0, "T_ULONGLONG")
c_char_type = CIntType(0, 1, "T_CHAR")
c_short_type = CIntType(1, 1, "T_SHORT")
c_int_type = CIntType(2, 1, "T_INT")
c_long_type = CLongType(3, 1, "T_LONG")
c_longlong_type = CLongLongType(6, 1, "T_LONGLONG")
c_bint_type = CBIntType(2, 1, "T_INT")
c_schar_type = CIntType(0, 2, "T_CHAR")
c_sshort_type = CIntType(1, 2, "T_SHORT")
c_sint_type = CIntType(2, 2, "T_INT")
c_slong_type = CLongType(3, 2, "T_LONG")
c_slonglong_type = CLongLongType(6, 2, "T_LONGLONG")
c_py_ssize_t_type = CPySSizeTType(4, 2, "T_PYSSIZET")
c_size_t_type = CSizeTType(5, 0, "T_SIZET")
c_float_type = CFloatType(7, "T_FLOAT", math_h_modifier='f')
c_double_type = CFloatType(8, "T_DOUBLE")
c_uchar_type = CIntType(0, 0)
c_ushort_type = CIntType(1, 0)
c_uint_type = CUIntType(2, 0)
c_ulong_type = CULongType(3, 0)
c_ulonglong_type = CULongLongType(6, 0)
c_char_type = CIntType(0, 1)
c_short_type = CIntType(1, 1)
c_int_type = CIntType(2, 1)
c_long_type = CLongType(3, 1)
c_longlong_type = CLongLongType(6, 1)
c_bint_type = CBIntType(2, 1)
c_schar_type = CIntType(0, 2)
c_sshort_type = CIntType(1, 2)
c_sint_type = CIntType(2, 2)
c_slong_type = CLongType(3, 2)
c_slonglong_type = CLongLongType(6, 2)
c_py_ssize_t_type = CPySSizeTType(4, 2)
c_size_t_type = CSizeTType(5, 0)
c_float_type = CFloatType(7, math_h_modifier='f')
c_double_type = CFloatType(8)
c_longdouble_type = CFloatType(9, math_h_modifier='l')
c_double_complex_type = CComplexType(c_double_type)
......@@ -2125,7 +2100,7 @@ c_int_ptr_type = CPtrType(c_int_type)
c_py_ssize_t_ptr_type = CPtrType(c_py_ssize_t_type)
c_size_t_ptr_type = CPtrType(c_size_t_type)
c_returncode_type = CIntType(2, 1, "T_INT", is_returncode = 1)
c_returncode_type = CIntType(2, 1, is_returncode = 1)
c_anon_enum_type = CAnonEnumType(-1, 1)
......@@ -2304,9 +2279,7 @@ def best_match(args, functions, pos=None):
src_type = args[i].type
dst_type = func_type.args[i].type
if dst_type.assignable_from(src_type):
if src_type == dst_type or (dst_type.is_reference and \
src_type == dst_type.base_type) \
or dst_type.same_as(src_type):
if src_type == dst_type or dst_type.same_as(src_type):
pass # score 0
elif is_promotion(src_type, dst_type):
score[2] += 1
......@@ -2496,68 +2469,6 @@ type_conversion_predeclarations = """
static CYTHON_INLINE int __Pyx_PyObject_IsTrue(PyObject*);
static CYTHON_INLINE PyObject* __Pyx_PyNumber_Int(PyObject* x);
#if !defined(T_PYSSIZET)
#if PY_VERSION_HEX < 0x02050000
#define T_PYSSIZET T_INT
#elif !defined(T_LONGLONG)
#define T_PYSSIZET \\
((sizeof(Py_ssize_t) == sizeof(int)) ? T_INT : \\
((sizeof(Py_ssize_t) == sizeof(long)) ? T_LONG : -1))
#else
#define T_PYSSIZET \\
((sizeof(Py_ssize_t) == sizeof(int)) ? T_INT : \\
((sizeof(Py_ssize_t) == sizeof(long)) ? T_LONG : \\
((sizeof(Py_ssize_t) == sizeof(PY_LONG_LONG)) ? T_LONGLONG : -1)))
#endif
#endif
#if !defined(T_ULONGLONG)
#define __Pyx_T_UNSIGNED_INT(x) \\
((sizeof(x) == sizeof(unsigned char)) ? T_UBYTE : \\
((sizeof(x) == sizeof(unsigned short)) ? T_USHORT : \\
((sizeof(x) == sizeof(unsigned int)) ? T_UINT : \\
((sizeof(x) == sizeof(unsigned long)) ? T_ULONG : -1))))
#else
#define __Pyx_T_UNSIGNED_INT(x) \\
((sizeof(x) == sizeof(unsigned char)) ? T_UBYTE : \\
((sizeof(x) == sizeof(unsigned short)) ? T_USHORT : \\
((sizeof(x) == sizeof(unsigned int)) ? T_UINT : \\
((sizeof(x) == sizeof(unsigned long)) ? T_ULONG : \\
((sizeof(x) == sizeof(unsigned PY_LONG_LONG)) ? T_ULONGLONG : -1)))))
#endif
#if !defined(T_LONGLONG)
#define __Pyx_T_SIGNED_INT(x) \\
((sizeof(x) == sizeof(char)) ? T_BYTE : \\
((sizeof(x) == sizeof(short)) ? T_SHORT : \\
((sizeof(x) == sizeof(int)) ? T_INT : \\
((sizeof(x) == sizeof(long)) ? T_LONG : -1))))
#else
#define __Pyx_T_SIGNED_INT(x) \\
((sizeof(x) == sizeof(char)) ? T_BYTE : \\
((sizeof(x) == sizeof(short)) ? T_SHORT : \\
((sizeof(x) == sizeof(int)) ? T_INT : \\
((sizeof(x) == sizeof(long)) ? T_LONG : \\
((sizeof(x) == sizeof(PY_LONG_LONG)) ? T_LONGLONG : -1)))))
#endif
#define __Pyx_T_FLOATING(x) \\
((sizeof(x) == sizeof(float)) ? T_FLOAT : \\
((sizeof(x) == sizeof(double)) ? T_DOUBLE : -1))
#if !defined(T_SIZET)
#if !defined(T_ULONGLONG)
#define T_SIZET \\
((sizeof(size_t) == sizeof(unsigned int)) ? T_UINT : \\
((sizeof(size_t) == sizeof(unsigned long)) ? T_ULONG : -1))
#else
#define T_SIZET \\
((sizeof(size_t) == sizeof(unsigned int)) ? T_UINT : \\
((sizeof(size_t) == sizeof(unsigned long)) ? T_ULONG : \\
((sizeof(size_t) == sizeof(unsigned PY_LONG_LONG)) ? T_ULONGLONG : -1)))
#endif
#endif
static CYTHON_INLINE Py_ssize_t __Pyx_PyIndex_AsSsize_t(PyObject*);
static CYTHON_INLINE PyObject * __Pyx_PyInt_FromSize_t(size_t);
static CYTHON_INLINE size_t __Pyx_PyInt_AsSize_t(PyObject*);
......
......@@ -10,13 +10,15 @@ import codecs
from time import time
import cython
cython.declare(EncodedString=object, string_prefixes=object, raw_prefixes=object, IDENT=object)
cython.declare(EncodedString=object, string_prefixes=object, raw_prefixes=object, IDENT=object,
print_function=object)
from Cython import Plex, Utils
from Cython.Plex.Scanners import Scanner
from Cython.Plex.Errors import UnrecognizedInput
from Errors import CompileError, error
from Lexicon import string_prefixes, raw_prefixes, make_lexicon, IDENT
from Future import print_function
from StringEncoding import EncodedString
......@@ -61,7 +63,7 @@ def build_resword_dict():
d[word] = 1
return d
cython.declare(resword_dict=object)
cython.declare(resword_dict=dict)
resword_dict = build_resword_dict()
#------------------------------------------------------------------
......@@ -345,7 +347,11 @@ class PyrexScanner(Scanner):
self.error("Unrecognized character")
if sy == IDENT:
if systring in resword_dict:
sy = systring
if systring == 'print' and \
print_function in self.context.future_directives:
systring = EncodedString(systring)
else:
sy = systring
else:
systring = EncodedString(systring)
self.sy = sy
......
......@@ -605,8 +605,6 @@ class Scope(object):
def lookup_operator(self, operator, operands):
if operands[0].type.is_cpp_class:
obj_type = operands[0].type
if obj_type.is_reference:
obj_type = obj_type.base_type
method = obj_type.scope.lookup("operator%s" % operator)
if method is not None:
res = PyrexTypes.best_match(operands[1:], method.all_alternatives())
......@@ -793,7 +791,7 @@ class ModuleScope(Scope):
self.doc_cname = Naming.moddoc_cname
self.utility_code_list = []
self.module_entries = {}
self.python_include_files = ["Python.h", "structmember.h"]
self.python_include_files = ["Python.h"]
self.include_files = []
self.type_names = dict(outer_scope.type_names)
self.pxd_file_loaded = 0
......@@ -1323,10 +1321,8 @@ class CClassScope(ClassScope):
# #typeobj_cname string or None
# #objstruct_cname string
# method_table_cname string
# member_table_cname string
# getset_table_cname string
# has_pyobject_attrs boolean Any PyObject attributes?
# public_attr_entries boolean public/readonly attrs
# property_entries [Entry]
# defined boolean Defined in .pxd file
# implemented boolean Defined in .pyx file
......@@ -1338,10 +1334,8 @@ class CClassScope(ClassScope):
ClassScope.__init__(self, name, outer_scope)
if visibility != 'extern':
self.method_table_cname = outer_scope.mangle(Naming.methtab_prefix, name)
self.member_table_cname = outer_scope.mangle(Naming.memtab_prefix, name)
self.getset_table_cname = outer_scope.mangle(Naming.gstab_prefix, name)
self.has_pyobject_attrs = 0
self.public_attr_entries = []
self.property_entries = []
self.inherited_var_entries = []
self.defined = 0
......@@ -1382,16 +1376,14 @@ class CClassScope(ClassScope):
error(pos,
"Attribute of extension type cannot be declared %s" % visibility)
if visibility in ('public', 'readonly'):
if type.pymemberdef_typecode:
self.public_attr_entries.append(entry)
if name == "__weakref__":
error(pos, "Special attribute __weakref__ cannot be exposed to Python")
else:
error(pos,
"C attribute of type '%s' cannot be accessed from Python" % type)
if visibility == 'public' and type.is_extension_type:
error(pos,
"Non-generic Python attribute cannot be exposed for writing from Python")
if name == "__weakref__":
error(pos, "Special attribute __weakref__ cannot be exposed to Python")
if not type.is_pyobject:
if (not type.create_to_py_utility_code(self) or
(visibility=='public' and not
type.create_from_py_utility_code(self))):
error(pos,
"C attribute of type '%s' cannot be accessed from Python" % type)
return entry
else:
if type is unspecified_type:
......@@ -1563,7 +1555,6 @@ class CppClassScope(Scope):
error(pos, "no matching function for call to " \
"%s::%s()" % (temp_entry.scope.name, temp_entry.scope.name))
elif not self.default_constructor:
print 5
error(pos, "no matching function for call to %s::%s()" %
(self.default_constructor, self.default_constructor))
......@@ -1610,11 +1601,16 @@ class CppClassScope(Scope):
entry.pos,
entry.cname)
else:
scope.declare_var(entry.name,
entry.type.specialize(values),
entry.pos,
entry.cname,
entry.visibility)
# scope.declare_var(entry.name,
# entry.type.specialize(values),
# entry.pos,
# entry.cname,
# entry.visibility)
for e in entry.all_alternatives():
scope.declare_cfunction(e.name,
e.type.specialize(values),
e.pos,
e.cname)
return scope
......
......@@ -277,10 +277,14 @@ def find_spanning_type(type1, type2):
def aggressive_spanning_type(types, might_overflow):
result_type = reduce(find_spanning_type, types)
if result_type.is_reference:
result_type = result_type.ref_base_type
return result_type
def safe_spanning_type(types, might_overflow):
result_type = reduce(find_spanning_type, types)
if result_type.is_reference:
result_type = result_type.ref_base_type
if result_type.is_pyobject:
# any specific Python type is always safe to infer
return result_type
......
......@@ -370,10 +370,7 @@ class MemberTableSlot(SlotDescriptor):
# Slot descriptor for the table of Python-accessible attributes.
def slot_code(self, scope):
if scope.public_attr_entries:
return scope.member_table_cname
else:
return "0"
return "0"
class GetSetSlot(SlotDescriptor):
......
from pair cimport pair
cdef extern from "<deque>" namespace "std":
cdef cppclass deque[T]:
cppclass iterator:
T operator*()
iterator operator++()
bint operator==(iterator)
bint operator!=(iterator)
cppclass const_iterator(iterator):
pass
cppclass reverse_iterator(iterator):
pass
cppclass const_reverse_iterator(iterator):
pass
deque()
deque(deque&)
deque(size_t, T& val = T())
#deque(input_iterator, input_iterator)
TYPE& operator[]( size_type index )
const TYPE& operator[]( size_type index ) const
#deque& operator=(deque&)
bool operator==(deque&, deque&)
bool operator!=(deque&, deque&)
bool operator<(deque&, deque&)
bool operator>(deque&, deque&)
bool operator<=(deque&, deque&)
bool operator>=(deque&, deque&)
void assign(size_t, TYPE&)
void assign(input_iterator, input_iterator)
T& at(size_t)
T& back()
iterator begin()
const_iterator begin()
void clear()
bool empty()
iterator end()
const_iterator end()
iterator erase(iterator)
iterator erase(iterator, iterator)
T& front()
iterator insert(iterator, T&)
void insert(iterator, size_t, T&)
void insert(iterator, input_iterator, input_iterator)
size_t max_size()
void pop_back()
void pop_front()
void push_back(T&)
void push_front(T&)
reverse_iterator rbegin()
const_reverse_iterator rbegin()
reverse_iterator rend()
const_reverse_iterator rend()
void resize(size_t, T val = T())
size_t size()
void swap(deque&)
cdef extern from "pair.h":
cdef cppclass pair[T, U]:
T first
U second
pair()
pair(T&, U&)
from pair cimport pair
cdef extern from "<queue>" namespace "std":
cdef cppclass queue[T]:
queue()
#queue(Container&)
T& back()
bool empty()
T& front()
void pop()
void push(T&)
size_t size()
from pair cimport pair
cdef extern from "<set>" namespace "std":
cdef cppclass set[T]:
cppclass iterator:
T operator*()
iterator operator++()
bint operator==(iterator)
bint operator!=(iterator)
cppclass const_iterator(iterator):
pass
cppclass reverse_iterator(iterator):
pass
cppclass const_reverse_iterator(iterator):
pass
set()
set(set&)
#set set(key_compare&)
#set& operator=(set&)
bool operator==(set&, set&)
bool operator!=(set&, set&)
bool operator<(set&, set&)
bool operator>(set&, set&)
bool operator<=(set&, set&)
bool operator>=(set&, set&)
iterator begin()
const_iterator begin()
void clear()
#size_t count(key_type&)
bool empty()
iterator end()
const_iterator end()
#pair[iterator, iterator] equal_range(key_type&)
#pair[const_iterator, const_iterator] equal_range(key_type&)
void erase(iterator)
void erase(iterator, iterator)
#size_t erase(key_type&)
#iterator find(key_type&)
#const_iterator find(key_type&)
#pair[iterator, bool] insert(T&)
iterator insert(iterator, T&)
#void insert(input_iterator, input_iterator)
#key_compare key_comp()
#iterator lower_bound(key_type&)
#const_iterator lower_bound(key_type&)
size_t max_size()
reverse_iterator rbegin()
const_reverse_iterator rbegin()
reverse_iterator rend()
const_reverse_iterator rend()
size_t size()
void swap(set&)
#iterator upper_bound(key_type&)
#const_iterator upper_bound(key_type&)
#value_compare value_comp()
from pair cimport pair
cdef extern from "<list>" namespace "std":
cdef cppclass list[T]:
cppclass iterator:
T operator*()
iterator operator++()
bint operator==(iterator)
bint operator!=(iterator)
cppclass const_iterator(iterator):
pass
cppclass reverse_iterator(iterator):
pass
cppclass const_reverse_iterator(iterator):
pass
list()
list(list&)
list(size_t, T&)
#list operator=(list&)
bool operator==(list&, list&)
bool operator!=(list&, list&)
bool operator<(list&, list&)
bool operator>(list&, list&)
bool operator<=(list&, list&)
bool operator>=(list&, list&)
void assign(size_t, T&)
T& back()
iterator begin()
const_iterator begin()
bool empty()
iterator end()
const_iterator end()
iterator erase(iterator)
iterator erase(iterator, iterator)
T& front()
iterator insert(iterator, T&)
void insert(iterator, size_t, T&)
size_t max_size()
void merge(list&)
#voide merge(list&, BinPred)
void pop_back()
void pop_front()
void push_back(T&)
void push_front(T&)
reverse_iterator rbegin()
const_reverse_iterator rbegin()
void remove(T&)
#void remove_if(UnPred)
reverse_iterator rend()
const_reverse_iterator rend()
void resize(size_t, T&)
void reverse()
size_t size()
void sort()
#void sort(BinPred)
void splice(iterator, list&)
void splice(iterator, list&, iterator)
void splice(iterator, list&, iterator, iterator)
void swap(list&)
void unique()
#void unique(BinPred)
from pair cimport pair
cdef extern from "<vector>" namespace "std":
cdef cppclass vector[T]:
cppclass iterator:
T operator*()
iterator operator++()
bint operator==(iterator)
bint operator!=(iterator)
cppclass const_iterator(iterator):
pass
cppclass reverse_iterator(iterator):
pass
cppclass const_reverse_iterator(iterator):
pass
#cppclass input_iterator(iterator):
# pass
vector()
#vector(vector&)
#vector(size_t, T&)
#vector[input_iterator](input_iterator, input_iterator)
T& operator[](size_t)
#vector& operator=(vector&)
bool operator==(vector&, vector&)
bool operator!=(vector&, vector&)
bool operator<(vector&, vector&)
bool operator>(vector&, vector&)
bool operator<=(vector&, vector&)
bool operator>=(vector&, vector&)
void assign(size_t, T&)
#void assign(input_iterator, input_iterator)
T& at(size_t)
T& back()
iterator begin()
const_iterator begin()
size_t capacity()
void clear()
bool empty()
iterator end()
const_iterator end()
iterator erase(iterator)
iterator erase(iterator, iterator)
T& front()
iterator insert(iterator, T&)
void insert(iterator, size_t, T&)
void insert(iterator, iterator, iterator)
size_t max_size()
void pop_back()
void push_back(T&)
reverse_iterator rbegin()
const_reverse_iterator rbegin()
reverse_iterator rend()
const_reverse_iterator rend()
void reserve(size_t)
void resize(size_t, T)
size_t size()
void swap(vector&)
import sys
sys.stderr = sys.stdout
from TransitionMaps import TransitionMap
m = TransitionMap()
print m
def add(c, s):
print
print "adding", repr(c), "-->", repr(s)
m.add_transition(c, s)
print m
print "keys:", m.keys()
add('a','alpha')
add('e', 'eta')
add('f', 'foo')
add('i', 'iota')
add('i', 'imp')
add('eol', 'elephant')
......@@ -59,8 +59,11 @@ class Context(object):
else:
return None
cdef void report_unraisable(object e):
cdef void report_unraisable(object e=None):
try:
if e is None:
import sys
e = sys.exc_info()[1]
print u"refnanny raised an exception: %s" % e
except:
pass # We absolutely cannot exit with an exception
......@@ -92,12 +95,16 @@ cdef void GOTREF(PyObject* ctx, PyObject* p_obj, int lineno):
cdef PyObject* type = NULL, *value = NULL, *tb = NULL
PyErr_Fetch(&type, &value, &tb)
try:
if p_obj is NULL:
(<object>ctx).regref(None, lineno, True)
else:
(<object>ctx).regref(<object>p_obj, lineno, False)
except Exception, e:
report_unraisable(e)
try:
if p_obj is NULL:
(<object>ctx).regref(None, lineno, True)
else:
(<object>ctx).regref(<object>p_obj, lineno, False)
except:
report_unraisable()
except:
# __Pyx_GetException may itself raise errors
pass
PyErr_Restore(type, value, tb)
cdef int GIVEREF_and_report(PyObject* ctx, PyObject* p_obj, int lineno):
......@@ -106,12 +113,16 @@ cdef int GIVEREF_and_report(PyObject* ctx, PyObject* p_obj, int lineno):
cdef bint decref_ok = False
PyErr_Fetch(&type, &value, &tb)
try:
if p_obj is NULL:
decref_ok = (<object>ctx).delref(None, lineno, True)
else:
decref_ok = (<object>ctx).delref(<object>p_obj, lineno, False)
except Exception, e:
report_unraisable(e)
try:
if p_obj is NULL:
decref_ok = (<object>ctx).delref(None, lineno, True)
else:
decref_ok = (<object>ctx).delref(<object>p_obj, lineno, False)
except:
report_unraisable()
except:
# __Pyx_GetException may itself raise errors
pass
PyErr_Restore(type, value, tb)
return decref_ok
......@@ -132,13 +143,17 @@ cdef void FinishContext(PyObject** ctx):
cdef object errors = None
PyErr_Fetch(&type, &value, &tb)
try:
errors = (<object>ctx[0]).end()
pos = (<object>ctx[0]).filename, (<object>ctx[0]).name
if errors:
print u"%s: %s()" % pos
print errors
except Exception, e:
report_unraisable(e)
try:
errors = (<object>ctx[0]).end()
pos = (<object>ctx[0]).filename, (<object>ctx[0]).name
if errors:
print u"%s: %s()" % pos
print errors
except:
report_unraisable()
except:
# __Pyx_GetException may itself raise errors
pass
Py_DECREF(<object>ctx[0])
ctx[0] = NULL
PyErr_Restore(type, value, tb)
......
......@@ -208,7 +208,9 @@ class _XMLTestResult(_TextTestResult):
xml_testsuite.appendChild(testcase)
testcase.setAttribute('classname', str(suite_name))
testcase.setAttribute('name', str(test_result.test_method.shortDescription() or test_result.test_method._testMethodName))
testcase.setAttribute('name', test_result.test_method.shortDescription()
or getattr(test_result.test_method, '_testMethodName',
str(test_result.test_method)))
testcase.setAttribute('time', '%.3f' % test_result.get_elapsed_time())
if (test_result.outcome != _TestInfo.SUCCESS):
......
# Makefile for creating our standalone Cython program
PYVERSION=$(shell python -c "import sys; print(sys.version[:3])")
PYPREFIX=$(shell python -c "import sys; print(sys.prefix)")
LINKFORSHARED=$(shell python -c "import distutils.sysconfig; print(distutils.sysconfig.get_config_var('LINKFORSHARED'))")
PYTHON=python
PYVERSION=$(shell $(PYTHON) -c "import sys; print(sys.version[:3])")
PYPREFIX=$(shell $(PYTHON) -c "import sys; print(sys.prefix)")
LINKFORSHARED=$(shell $(PYTHON) -c "import distutils.sysconfig; print(distutils.sysconfig.get_config_var('LINKFORSHARED'))")
INCLUDES=-I$(PYPREFIX)/include/python$(PYVERSION)
embedded: embedded.o
......@@ -11,7 +12,7 @@ embedded.o: embedded.c
gcc -c $^ $(INCLUDES)
embedded.c: embedded.pyx
@python ../../cython.py --embed embedded.pyx
@$(PYTHON) ../../cython.py --embed embedded.pyx
all: embedded
......@@ -21,4 +22,4 @@ clean:
test: clean all
./embedded > test.output
python assert_equal.py embedded.output test.output
$(PYTHON) assert_equal.py embedded.output test.output
......@@ -22,7 +22,7 @@ repo: .hg
clean:
@echo Cleaning Source
@rm -fr build
@rm -f *.pyc */*.pyc */*/*.pyc
@rm -f *.py[co] */*.py[co] */*/*.py[co] */*/*/*.py[co]
@rm -f *.so */*.so */*/*.so
@rm -f *.pyd */*.pyd */*/*.pyd
@rm -f *~ */*~ */*/*~
......
......@@ -48,8 +48,12 @@ EXT_DEP_INCLUDES = [
]
VER_DEP_MODULES = {
# tests are excluded if 'CurrentPythonVersion OP VersionTuple', i.e.
# (2,4) : (operator.le, ...) excludes ... when PyVer <= 2.4.x
(2,4) : (operator.le, lambda x: x in ['run.extern_builtins_T258'
]),
(2,6) : (operator.lt, lambda x: x in ['run.print_function'
]),
(3,): (operator.ge, lambda x: x in ['run.non_future_division',
'compile.extsetslice',
'compile.extdelslice']),
......@@ -615,17 +619,24 @@ class EmbedTest(unittest.TestCase):
def setUp(self):
self.old_dir = os.getcwd()
os.chdir(self.working_dir)
os.system("make clean > /dev/null")
os.system(
"make PYTHON='%s' clean > /dev/null" % sys.executable)
def tearDown(self):
try:
os.system("make clean > /dev/null")
os.system(
"make PYTHON='%s' clean > /dev/null" % sys.executable)
except:
pass
os.chdir(self.old_dir)
def test_embed(self):
self.assert_(os.system("make test > make.output") == 0)
self.assert_(os.system(
"make PYTHON='%s' test > make.output" % sys.executable) == 0)
try:
os.remove('make.output')
except OSError:
pass
class MissingDependencyExcluder:
def __init__(self, deps):
......
......@@ -3,9 +3,9 @@ from distutils.sysconfig import get_python_lib
import os, os.path
import sys
if 'sdist' in sys.argv and sys.platform != "win32":
if 'sdist' in sys.argv and sys.platform != "win32" and sys.version_info >= (2,4):
# Record the current revision in .hgrev
import subprocess # os.popen is cleaner but depricated
import subprocess # os.popen is cleaner but deprecated
changset = subprocess.Popen("hg log --rev tip | grep changeset",
shell=True,
stdout=subprocess.PIPE).stdout.read()
......@@ -14,10 +14,6 @@ if 'sdist' in sys.argv and sys.platform != "win32":
hgrev.write(rev)
hgrev.close()
compiler_dir = os.path.join(get_python_lib(prefix=''), 'Cython/Compiler')
if sys.platform == "win32":
compiler_dir = compiler_dir[len(sys.prefix)+1:]
if sys.platform == "darwin":
# Don't create resource files on OS X tar.
os.environ['COPY_EXTENDED_ATTRIBUTES_DISABLE'] = 'true'
......@@ -43,16 +39,16 @@ if sys.version_info[0] >= 3:
if sys.version_info < (2,4):
install_base_dir = get_python_lib(prefix='')
import glob
cython_dir = os.path.join(get_python_lib(prefix=''), 'Cython')
compiler_dir = os.path.join(cython_dir, 'Compiler')
setup_args['data_files'] = [
(cython_dir, [ f for pattern in
['Cython/Includes/*.pxd',
(os.path.dirname(os.path.join(install_base_dir, pattern)),
[ f for f in glob.glob(pattern) ])
for pattern in ['Cython/Includes/*.pxd',
'Cython/Plex/*.pxd',
'Cython/Compiler/*.pxd',
'Cython/Runtime/*.pyx']
for f in glob.glob(pattern) ])]
]
else:
setup_args['package_data'] = {'Cython' : ['Includes/*.pxd',
'Plex/*.pxd',
......
cdef extern from "cast_ctypedef_array_T518_helper.h":
cdef struct __foo_struct:
int i, j
ctypedef __foo_struct foo_t[1]
void foo_init(foo_t)
void foo_clear(foo_t)
cdef foo_t value
foo_init(value)
foo_clear(value)
cdef void *pointer = <void*> value
foo_init(<foo_t>pointer)
foo_clear(<foo_t>pointer)
struct __foo_struct { int i, j; };
typedef struct __foo_struct foo_t[1];
static void foo_init (foo_t v) { v[0].i = 0; v[0].j = 0; }
static void foo_clear (foo_t v) { v[0].i = 0; v[0].j = 0; }
......@@ -8,7 +8,7 @@ cdef class Spam:
cdef public float f
cdef public double d
cdef public char *s
cdef public char a[42]
cdef readonly char a[42]
cdef public object o
cdef readonly int r
cdef readonly Spam e
ctypedef void* VoidP
cdef class Spam:
cdef VoidP vp0
cdef readonly VoidP vp2
cdef public VoidP vp1
ctypedef struct Foo:
int i
cdef class Bar:
cdef Foo foo0
cdef readonly Foo foo2
cdef public Foo foo1
pass
_ERRORS = u"""
5:24: C attribute of type 'VoidP' cannot be accessed from Python
5:24: Cannot convert 'VoidP' to Python object
6:24: C attribute of type 'VoidP' cannot be accessed from Python
6:24: Cannot convert 'VoidP' to Python object
6:24: Cannot convert Python object to 'VoidP'
14:22: C attribute of type 'Foo' cannot be accessed from Python
14:22: Cannot convert Python object to 'Foo'
"""
......@@ -13,7 +13,10 @@ cdef void f():
x = c.__weakref__
c.__weakref__ = x
_ERRORS = u"""
5:20: Illegal use of special attribute __weakref__
5:20: Illegal use of special attribute __weakref__
5:20: Special attribute __weakref__ cannot be exposed to Python
8:22: Illegal use of special attribute __weakref__
8:22: Special attribute __weakref__ cannot be exposed to Python
13:6: Illegal use of special attribute __weakref__
14:2: Illegal use of special attribute __weakref__
......
#cython: embedsignature=True
__doc__ = u"""
>>> a = A()
>>> a.h = 7
>>> a.i = 127
>>> a.l = 255
>>> a.q = 255
>>> a.f = 1.0/2.0
>>> a.d = 1/2.0 + 1/4.0
>>> a.g = 1/2.0 + 1/4.0 + 1/8.0
>>> a.Zf = 1+2j
>>> a.Zd = 3+4j
>>> a.Zg = 5+6j
>>> a.h, a.i, a.l
(7, 127, 255)
>>> a.ro_h, a.ro_i, a.ro_l
(7, 127, 255)
>>> a.f, a.d, a.g
(0.5, 0.75, 0.875)
>>> a.ro_f, a.ro_d, a.ro_g
(0.5, 0.75, 0.875)
>>> a.Zf, a.Zd, a.Zg
((1+2j), (3+4j), (5+6j))
>>> a.ro_Zf, a.ro_Zd, a.ro_Zg
((1+2j), (3+4j), (5+6j))
>>> b = B()
>>> b.a0 #doctest: +ELLIPSIS
Traceback (most recent call last):
...
AttributeError: ...
>>> b.b0 #doctest: +ELLIPSIS
Traceback (most recent call last):
...
AttributeError: ...
>>> b.c0 #doctest: +ELLIPSIS
Traceback (most recent call last):
...
AttributeError: ...
>>> isinstance(b.a1, type(None))
True
>>> isinstance(b.a2, type(None))
True
>>> isinstance(b.b1, list)
True
>>> isinstance(b.b2, list)
True
>>> isinstance(b.c1, A)
True
>>> isinstance(b.c2, A)
True
>>> b.a1 = a
>>> b.a1 is not b.a2
True
>>> b.b1 = 1 #doctest: +ELLIPSIS
Traceback (most recent call last):
...
TypeError: ...
>>> b.c1 = 1 #doctest: +ELLIPSIS
Traceback (most recent call last):
...
TypeError: ...
>>> b.a2 = None #doctest: +ELLIPSIS
Traceback (most recent call last):
...
AttributeError: ...
>>> b.b2 = [] #doctest: +ELLIPSIS
Traceback (most recent call last):
...
AttributeError: ...
>>> b.c2 = A() #doctest: +ELLIPSIS
Traceback (most recent call last):
...
AttributeError: ...
"""
cdef class A:
cdef public short h
cdef public int i
cdef public long l
cdef public long long q
cdef public float f
cdef public double d
cdef public long double g
cdef public float complex Zf
cdef public double complex Zd
cdef public long double complex Zg
cdef readonly short ro_h
cdef readonly int ro_i
cdef readonly long ro_l
cdef readonly long long ro_q
cdef readonly float ro_f
cdef readonly double ro_d
cdef readonly long double ro_g
cdef readonly float complex ro_Zf
cdef readonly double complex ro_Zd
cdef readonly long double complex ro_Zg
def __cinit__(self):
self.ro_h = 7
self.ro_i = 127
self.ro_l = 255
self.ro_q = 255
self.ro_f = 1.0/2.0
self.ro_d = 1/2.0 + 1/4.0
self.ro_g = 1/2.0 + 1/4.0 + 1/8.0
self.ro_Zf = 1+2j
self.ro_Zd = 3+4j
self.ro_Zg = 5+6j
cdef class B:
cdef object a0
cdef public object a1
cdef readonly object a2
cdef list b0
cdef public list b1
cdef readonly list b2
cdef A c0
cdef public A c1
cdef readonly A c2
def __cinit__(self):
self.b0 = self.b1 = self.b2 = []
self.c0 = self.c1 = self.c2 = A()
from cython.operator cimport dereference as d
cdef extern from "<vector>" namespace "std":
cdef cppclass vector[T]:
void push_back(T)
size_t size()
T operator[](size_t)
T& operator[](size_t)
def simple_test(double x):
"""
>>> simple_test(55)
3
"""
cdef vector[double] *v
try:
v = new vector[double]()
v.push_back(1.0)
......@@ -30,7 +31,6 @@ def list_test(L):
>>> list_test([-1] * 1000)
(1000, 1000)
"""
cdef vector[int] *v
try:
v = new vector[int]()
for a in L:
......@@ -46,7 +46,6 @@ def index_test(L):
>>> index_test([1.25])
(1.25, 1.25)
"""
cdef vector[double] *v
try:
v = new vector[double]()
for a in L:
......@@ -54,3 +53,21 @@ def index_test(L):
return v[0][0], v[0][len(L)-1]
finally:
del v
def index_set_test(L):
"""
>>> index_set_test([1,2,4,8])
(-1.0, -8.0)
>>> index_set_test([1.25])
(-1.25, -1.25)
"""
try:
v = new vector[double]()
for a in L:
v.push_back(a)
for i in range(v.size()):
d(v)[i] = -d(v)[i]
return d(v)[0], d(v)[v.size()-1]
finally:
del v
......@@ -5,6 +5,15 @@ __doc__ = ur"""
>>> print (Ext.__doc__)
Ext(a, b, c=None)
>>> print (Ext.attr0.__doc__)
attr0: 'int'
>>> print (Ext.attr1.__doc__)
attr1: object
>>> print (Ext.attr2.__doc__)
attr2: list
>>> print (Ext.attr3.__doc__)
attr3: embedsignatures.Ext
>>> print (Ext.a.__doc__)
Ext.a(self)
......@@ -145,6 +154,11 @@ __doc__ = ur"""
cdef class Ext:
cdef public int attr0
cdef public attr1
cdef public list attr2
cdef public Ext attr3
def __init__(self, a, b, c=None):
pass
......
# Py2.6 and later only!
from __future__ import print_function
def print_to_stdout(a, b):
"""
>>> print_to_stdout(1, 'test')
<BLANKLINE>
1
1 test
1 test
1 test 42 spam
"""
print()
print(a)
print(a, end=' ')
print(b)
print(a, b)
print(a, b, end=' ')
print(42, u"spam")
def print_assign(a, b):
"""
>>> print_assign(1, 'test')
<BLANKLINE>
1
1 test
1 test
1 test 42 spam
"""
x = print
x()
x(a)
x(a, end=' ')
x(b)
x(a, b)
x(a, b, end=' ')
x(42, u"spam")
try:
from StringIO import StringIO
except ImportError:
from io import StringIO
def print_to_stringio(stream, a, b):
"""
>>> stream = StringIO()
>>> print_to_stringio(stream, 1, 'test')
>>> print(stream.getvalue())
<BLANKLINE>
1
1 test
1 test
1 test 42 spam
<BLANKLINE>
"""
print(file=stream)
print(a, file=stream)
print(a, end=' ', file=stream)
print(b, file=stream)
print(a, b, file=stream)
print(a, b, end=' ', file=stream)
print(42, u"spam", file=stream)
__doc__ = """
>>> readonly()
>>> readonly() #doctest: +ELLIPSIS
Traceback (most recent call last):
...
TypeError: readonly attribute
...
TypeError: ...
"""
import sys
if sys.version_info[0] >= 3:
if sys.version_info[0:2] >= (2,4):
__doc__ = __doc__.replace(u'TypeError:', u'AttributeError:')
......@@ -51,9 +51,7 @@ def f():
def longdouble_access():
"""
>>> longdouble_access()
Traceback (most recent call last):
...
SystemError: bad memberdescr type
42.0
"""
cdef object c = MyClass()
print c.float_isreally_longdouble
......
cimport cython
cdef extern from "cpp_references_helper.h":
cdef int& ref_func(int&)
cdef int ref_var_value
cdef int& ref_var
def test_ref_func(int x):
"""
>>> test_ref_func(2)
2
>>> test_ref_func(3)
3
"""
return ref_func(x)
def test_ref_func_address(int x):
"""
>>> test_ref_func_address(5)
5
>>> test_ref_func_address(7)
7
"""
cdef int* i_ptr = &ref_func(x)
return i_ptr[0]
def test_ref_var(int x):
"""
>>> test_ref_func(11)
11
>>> test_ref_func(13)
13
"""
ref_var = x
return ref_var_value
def test_ref_assign(int x):
"""
>>> test_ref_assign(17)
17.0
>>> test_ref_assign(19)
19.0
"""
cdef double d = ref_func(x)
return d
@cython.infer_types(True)
def test_ref_inference(int x):
"""
>>> test_ref_inference(23)
23
>>> test_ref_inference(29)
29
"""
z = ref_func(x)
assert cython.typeof(z) == "int", cython.typeof(z)
return z
int ref_var_value = 10;
int& ref_var = ref_var_value;
int& ref_func(int& x) { return x; }
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