Merge pull request #1578 from mathbunnyru/delete_trailing_spaces

Delete trailing spaces

Merge pull request #1578 from mathbunnyru/delete_trailing_spaces
Delete trailing spaces
39df7ffd · scoder · GitHub · 4374001f · 2748f9ef · 39df7ffd
Commit 39df7ffd authored Feb 10, 2017 by scoder Committed by GitHub Feb 10, 2017
57 changed files
--- a/Cython/Build/BuildExecutable.py
+++ b/Cython/Build/BuildExecutable.py
@@ -71,7 +71,7 @@ def runcmd(cmd, shell=True):
        returncode = os.system(cmd)
    else:
        returncode = subprocess.call(cmd, shell=shell)
    if returncode:
        sys.exit(returncode)

--- a/Cython/Build/ipython-COPYING.rst
+++ b/Cython/Build/ipython-COPYING.rst
@@ -65,7 +65,7 @@ changes/contributions they have specific copyright on, they should indicate
 their copyright in the commit message of the change, when they commit the
 change to one of the IPython repositories.
-With this in mind, the following banner should be used in any source code file 
+With this in mind, the following banner should be used in any source code file
 to indicate the copyright and license terms:
 ::

--- a/Cython/CodeWriter.py
+++ b/Cython/CodeWriter.py
@@ -85,7 +85,7 @@ class DeclarationWriter(TreeVisitor):
    def visit_StatListNode(self, node):
        self.visitchildren(node)
    def visit_CDefExternNode(self, node):
        if node.include_file is None:
            file = u'*'
@@ -516,6 +516,6 @@ class PxdWriter(DeclarationWriter):
        if node.api:
            self.put(u'api ')
        self.visit(node.declarator)
    def visit_StatNode(self, node):
        pass
--- a/Cython/Compiler/Tests/TestMemView.py
+++ b/Cython/Compiler/Tests/TestMemView.py
@@ -13,7 +13,7 @@ class TestMemviewParsing(CythonTest):
    def not_parseable(self, expected_error, s):
        e = self.should_fail(lambda: self.fragment(s),  Errors.CompileError)
        self.assertEqual(expected_error, e.message_only)
    def test_default_1dim(self):
        self.parse(u"cdef int[:] x")
        self.parse(u"cdef short int[:] x")

--- a/Cython/Debugger/Tests/codefile
+++ b/Cython/Debugger/Tests/codefile
@@ -12,9 +12,9 @@ python_var = 13
 def spam(a=0):
    cdef:
        int b, c
    b = c = d = 0
    b = 1
    c = 2
    int(10)
@@ -23,11 +23,11 @@ def spam(a=0):
    some_c_function()
 cpdef eggs():
-    pass    
+    pass
 cdef ham():
    pass
 cdef class SomeClass(object):
    def spam(self):
        pass

--- a/Cython/Debugger/libpython.py
+++ b/Cython/Debugger/libpython.py
@@ -2517,8 +2517,8 @@ class FixGdbCommand(gdb.Command):
    def fix_gdb(self):
        """
-        It seems that invoking either 'cy exec' and 'py-exec' work perfectly 
+        It seems that invoking either 'cy exec' and 'py-exec' work perfectly
-        fine, but after this gdb's python API is entirely broken. 
+        fine, but after this gdb's python API is entirely broken.
        Maybe some uncleared exception value is still set?
        sys.exc_clear() didn't help. A demonstration:

--- a/Cython/Includes/cpython/array.pxd
+++ b/Cython/Includes/cpython/array.pxd
 """
  array.pxd
  Cython interface to Python's array.array module.
  * 1D contiguous data view
  * tools for fast array creation, maximum C-speed and handiness
  * suitable as allround light weight auto-array within Cython code too
  Usage:
  >>> cimport array
-  Usage through Cython buffer interface (Py2.3+):  
+  Usage through Cython buffer interface (Py2.3+):
    >>> def f(arg1, unsigned i, double dx)
    ...     array.array[double] a = arg1
    ...     a[i] += dx
  Fast C-level new_array(_zeros), resize_array, copy_array, Py_SIZE(obj),
  zero_array
-    cdef array.array[double] k = array.copy(d) 
+    cdef array.array[double] k = array.copy(d)
    cdef array.array[double] n = array.array(d, Py_SIZE(d) * 2 )
    cdef array.array[double] m = array.zeros_like(FLOAT_TEMPLATE)
    array.resize(f, 200000)
-  Zero overhead with naked data pointer views by union: 
+  Zero overhead with naked data pointer views by union:
-  _f, _d, _i, _c, _u, ... 
+  _f, _d, _i, _c, _u, ...
  => Original C array speed + Python dynamic memory management
    cdef array.array a = inarray
-    if 
+    if
    a._d[2] += 0.66   # use as double array without extra casting
    float *subview = vector._f + 10  # starting from 10th element
-    unsigned char *subview_buffer = vector._B + 4  
+    unsigned char *subview_buffer = vector._B + 4
-  Suitable as lightweight arrays intra Cython without speed penalty. 
+  Suitable as lightweight arrays intra Cython without speed penalty.
-  Replacement for C stack/malloc arrays; no trouble with refcounting, 
+  Replacement for C stack/malloc arrays; no trouble with refcounting,
  mem.leaks; seamless Python compatibility, buffer() optional
  last changes: 2009-05-15 rk
              : 2009-12-06 bp

--- a/Cython/Includes/cpython/datetime.pxd
+++ b/Cython/Includes/cpython/datetime.pxd
@@ -5,7 +5,7 @@ cdef extern from "Python.h":
        pass
 cdef extern from "datetime.h":
    ctypedef extern class datetime.date[object PyDateTime_Date]:
        pass
@@ -23,11 +23,11 @@ cdef extern from "datetime.h":
    ctypedef struct PyDateTime_Date:
        pass
    ctypedef struct PyDateTime_Time:
        char hastzinfo
        PyObject *tzinfo
    ctypedef struct PyDateTime_DateTime:
        char hastzinfo
        PyObject *tzinfo
@@ -36,22 +36,22 @@ cdef extern from "datetime.h":
        int days
        int seconds
        int microseconds
    # Define structure for C API.
    ctypedef struct PyDateTime_CAPI:
-        # type objects 
+        # type objects
        PyTypeObject *DateType
        PyTypeObject *DateTimeType
        PyTypeObject *TimeType
        PyTypeObject *DeltaType
        PyTypeObject *TZInfoType
        # constructors
        object (*Date_FromDate)(int, int, int, PyTypeObject*)
        object (*DateTime_FromDateAndTime)(int, int, int, int, int, int, int, object, PyTypeObject*)
        object (*Time_FromTime)(int, int, int, int, object, PyTypeObject*)
        object (*Delta_FromDelta)(int, int, int, int, PyTypeObject*)
        # constructors for the DB API
        object (*DateTime_FromTimestamp)(object, object, object)
        object (*Date_FromTimestamp)(object, object)
@@ -96,7 +96,7 @@ cdef extern from "datetime.h":
    # PyDateTime CAPI object.
    PyDateTime_CAPI *PyDateTimeAPI
    void PyDateTime_IMPORT()
 # Datetime C API initialization function.
@@ -108,7 +108,7 @@ cdef inline void import_datetime():
 # Note, there are no range checks for any of the arguments.
 cdef inline object date_new(int year, int month, int day):
    return PyDateTimeAPI.Date_FromDate(year, month, day, PyDateTimeAPI.DateType)
 # Create time object using DateTime CAPI factory function
 # Note, there are no range checks for any of the arguments.
 cdef inline object time_new(int hour, int minute, int second, int microsecond, object tz):
@@ -127,7 +127,7 @@ cdef inline object timedelta_new(int days, int seconds, int useconds):
 # More recognizable getters for date/time/datetime/timedelta.
 # There are no setters because datetime.h hasn't them.
 # This is because of immutable nature of these objects by design.
-# If you would change time/date/datetime/timedelta object you need to recreate. 
+# If you would change time/date/datetime/timedelta object you need to recreate.
 # Get tzinfo of time
 cdef inline object time_tzinfo(object o):
@@ -136,7 +136,7 @@ cdef inline object time_tzinfo(object o):
    else:
        return None
-# Get tzinfo of datetime 
+# Get tzinfo of datetime
 cdef inline object datetime_tzinfo(object o):
    if (<PyDateTime_DateTime*>o).hastzinfo:
        return <object>(<PyDateTime_DateTime*>o).tzinfo
@@ -146,7 +146,7 @@ cdef inline object datetime_tzinfo(object o):
 # Get year of date
 cdef inline int date_year(object o):
    return PyDateTime_GET_YEAR(o)
 # Get month of date
 cdef inline int date_month(object o):
    return PyDateTime_GET_MONTH(o)
@@ -158,7 +158,7 @@ cdef inline int date_day(object o):
 # Get year of datetime
 cdef inline int datetime_year(object o):
    return PyDateTime_GET_YEAR(o)
 # Get month of datetime
 cdef inline int datetime_month(object o):
    return PyDateTime_GET_MONTH(o)

--- a/Cython/Includes/libcpp/iterator.pxd
+++ b/Cython/Includes/libcpp/iterator.pxd
@@ -14,7 +14,7 @@ cdef extern from "<iterator>" namespace "std" nogil:
        pass
    cdef cppclass random_access_iterator_tag(bidirectional_iterator_tag):
        pass
    cdef cppclass back_insert_iterator[T](iterator[output_iterator_tag,void,void,void,void]):
        pass
    cdef cppclass front_insert_iterator[T](iterator[output_iterator_tag,void,void,void,void]):
@@ -29,4 +29,4 @@ cdef extern from "<iterator>" namespace "std" nogil:
    ##insert_iterator<Container> inserter (Container& x, typename Container::iterator it)
    insert_iterator[CONTAINER] inserter[CONTAINER,ITERATOR](CONTAINER &, ITERATOR)
--- a/Cython/Includes/libcpp/limits.pxd
+++ b/Cython/Includes/libcpp/limits.pxd
@@ -5,7 +5,7 @@ cdef extern from "<limits>" namespace "std" nogil:
        round_to_nearest          = 1
        round_toward_infinity     = 2
        round_toward_neg_infinity = 3
   enum float_denorm_style:
        denorm_indeterminate  = -1
        denorm_absent         = 0
@@ -37,7 +37,7 @@ cdef extern from "<limits>" namespace "std" nogil:
    const int  min_exponent10
    const int  max_exponent
    const int  max_exponent10
    const bint has_infinity
    const bint has_quiet_NaN
    const bint has_signaling_NaN

--- a/Cython/Includes/libcpp/memory.pxd
+++ b/Cython/Includes/libcpp/memory.pxd
@@ -16,8 +16,8 @@ cdef extern from "<memory>" namespace "std" nogil:
        void construct( T *, const T &) #C++98.  The C++11 version is variadic AND perfect-forwarding
        void destroy(T *) #C++98
        void destroy[U](U *) #unique_ptr unit tests fail w/this
    cdef cppclass unique_ptr[T,DELETER=*]:
        unique_ptr()
        unique_ptr(nullptr_t)

--- a/Cython/Tempita/_tempita.py
+++ b/Cython/Tempita/_tempita.py
@@ -113,7 +113,7 @@ class Template(object):
            self.default_namespace['start_braces'] = delimeters[0]
            self.default_namespace['end_braces'] = delimeters[1]
        self.delimeters = delimeters
        self._unicode = is_unicode(content)
        if name is None and stacklevel is not None:
            try:

--- a/Cython/Tests/TestJediTyper.py
+++ b/Cython/Tests/TestJediTyper.py
@@ -129,7 +129,7 @@ class TestJediTyper(TransformTest):
        variables = types.pop((None, (1, 0)))
        self.assertFalse(types)
        self.assertEqual({'a': set(['list']), 'b': set(['list']), 'c': set(['list']), 'd': set(['list'])}, variables)
    def test_typing_function_list(self):
        code = '''\
        def func(x):
@@ -149,14 +149,14 @@ class TestJediTyper(TransformTest):
        code = '''\
        a = dict()
        b = {i: i**2 for i in range(10)}
-        c = a        
+        c = a
        '''
        types = self._test(code)
        self.assertIn((None, (1, 0)), types)
        variables = types.pop((None, (1, 0)))
        self.assertFalse(types)
        self.assertEqual({'a': set(['dict']), 'b': set(['dict']), 'c': set(['dict'])}, variables)
    def test_typing_function_dict(self):
        code = '''\
        def func(x):
@@ -186,7 +186,7 @@ class TestJediTyper(TransformTest):
        variables = types.pop((None, (1, 0)))
        self.assertFalse(types)
        self.assertEqual({'a': set(['set']), 'c': set(['set']), 'd': set(['set']), 'e': set(['set'])}, variables)
    def test_typing_function_set(self):
        code = '''\
        def func(x):

--- a/Cython/Utility/arrayarray.h
+++ b/Cython/Utility/arrayarray.h
@@ -29,7 +29,7 @@ typedef struct arraydescr {
    int (*setitem)(struct arrayobject *, Py_ssize_t, PyObject *);
 #if PY_MAJOR_VERSION >= 3
    char *formats;
-#endif    
+#endif
 } arraydescr;
@@ -110,7 +110,7 @@ static CYTHON_INLINE int resize(arrayobject *self, Py_ssize_t n) {
    if (items == NULL) {
        PyErr_NoMemory();
        return -1;
-    }    
+    }
    self->data.ob_item = (char*) items;
    self->ob_size = n;
    self->allocated = n;

--- a/Demos/Readme_demos.rst
+++ b/Demos/Readme_demos.rst
@@ -24,12 +24,12 @@
    make
    ./nCr 10 5
    ./python
 * Build notes
  * benchmarks/chaos.py requires cython 0.24 or newer
  * embed and freeze work for python2, require cython 0.24 or higher
    for python 3.5
--- a/Demos/benchmarks/bpnn3.py
+++ b/Demos/benchmarks/bpnn3.py
 #!/usr/bin/python
 # Back-Propagation Neural Networks
-# 
+#
 # Written in Python.  See http://www.python.org/
 #
 # Neil Schemenauer <nascheme@enme.ucalgary.ca>
@@ -26,7 +26,7 @@ def makeMatrix(I, J, fill=0.0):
        return m
 class NN(object):
-#    print 'class NN'    
+#    print 'class NN'
    def __init__(self, ni, nh, no):
        # number of input, hidden, and output nodes
        self.ni = ni + 1 # +1 for bias node
@@ -37,7 +37,7 @@ class NN(object):
        self.ai = [1.0]*self.ni
        self.ah = [1.0]*self.nh
        self.ao = [1.0]*self.no
        # create weights
        self.wi = makeMatrix(self.ni, self.nh)
        self.wo = makeMatrix(self.nh, self.no)
@@ -49,7 +49,7 @@ class NN(object):
            for k in range(self.no):
                self.wo[j][k] = rand(-2.0, 2.0)
-        # last change in weights for momentum   
+        # last change in weights for momentum
        self.ci = makeMatrix(self.ni, self.nh)
        self.co = makeMatrix(self.nh, self.no)

--- a/Demos/benchmarks/hexiom2.py
+++ b/Demos/benchmarks/hexiom2.py
@@ -17,7 +17,7 @@ class Dir(object):
    def __init__(self, x, y):
        self.x = x
        self.y = y
 DIRS = [ Dir(1, 0),
         Dir(-1, 0),
         Dir(0, 1),
@@ -35,7 +35,7 @@ class Done(object):
    FIRST_STRATEGY = 3
    MAX_NEIGHBORS_STRATEGY = 4
    MIN_NEIGHBORS_STRATEGY = 5
    def __init__(self, count, empty=False):
        self.count = count
        self.cells = None if empty else [[0, 1, 2, 3, 4, 5, 6, EMPTY] for i in range(count)]
@@ -60,11 +60,11 @@ class Done(object):
            return True
        else:
            return False
    def remove_all(self, v):
        for i in range(self.count):
            self.remove(i, v)
    def remove_unfixed(self, v):
        changed = False
        for i in range(self.count):
@@ -72,7 +72,7 @@ class Done(object):
                if self.remove(i, v):
                    changed = True
        return changed
    def filter_tiles(self, tiles):
        for v in range(8):
            if tiles[v] == 0:
@@ -206,14 +206,14 @@ class Hex(object):
    def contains_pos(self, pos):
        return pos in self.nodes_by_pos
    def get_by_pos(self, pos):
        return self.nodes_by_pos[pos]
    def get_by_id(self, id):
        return self.nodes_by_id[id]
 ##################################
 class Pos(object):
    def __init__(self, hex, tiles, done = None):
@@ -223,7 +223,7 @@ class Pos(object):
    def clone(self):
        return Pos(self.hex, self.tiles, self.done.clone())
 ##################################
 @cython.locals(pos=Pos, i=cython.long, v=cython.int,
@@ -260,7 +260,7 @@ def constraint_pass(pos, last_move=None):
    for cell in done.cells:
        if len(cell) == 1:
            left[cell[0]] -= 1
    for v in range(8):
        # If there is none, remove the possibility from all tiles
        if (pos.tiles[v] > 0) and (left[v] == 0):
@@ -276,7 +276,7 @@ def constraint_pass(pos, last_move=None):
                    if (not done.already_done(i)) and (v in cell):
                        done.set_done(i, v)
                        changed = True
    # Force empty or non-empty around filled cells
    filled_cells = (range(done.count) if last_move is None
                    else [last_move])
@@ -307,7 +307,7 @@ def constraint_pass(pos, last_move=None):
                    for u in unknown:
                        if done.remove(u, EMPTY):
                            changed = True
    return changed
 ASCENDING = 1
@@ -402,7 +402,7 @@ def solved(pos, output, verbose=False):
    if (not all_done) or (not exact):
        return OPEN
    print_pos(pos, output)
    return SOLVED
@@ -414,7 +414,7 @@ def solve_step(prev, strategy, order, output, first=False):
            pass
    else:
        pos = prev
    moves = find_moves(pos, strategy, order)
    if len(moves) == 0:
        return solved(pos, output)
@@ -481,12 +481,12 @@ def read_file(file):
            else:
                inctile = int(tile)
            tiles[inctile] += 1
-            # Look for locked tiles    
+            # Look for locked tiles
            if tile[0] == "+":
                print("Adding locked tile: %d at pos %d, %d, id=%d" %
                      (inctile, x, y, hex.get_by_pos((x, y)).id))
                done.set_done(hex.get_by_pos((x, y)).id, inctile)
        linei += 1
    for y in range(1, size):
        ry = size - 1 + y
@@ -500,7 +500,7 @@ def read_file(file):
            else:
                inctile = int(tile)
            tiles[inctile] += 1
-            # Look for locked tiles    
+            # Look for locked tiles
            if tile[0] == "+":
                print("Adding locked tile: %d at pos %d, %d, id=%d" %
                      (inctile, x, ry, hex.get_by_pos((x, ry)).id))
@@ -530,13 +530,13 @@ def run_level36():
    output = StringIO()
    solve_file(f, strategy, order, output)
    expected = """\
-   3 4 3 2 
+   3 4 3 2
-  3 4 4 . 3 
+  3 4 4 . 3
- 2 . . 3 4 3 
+ 2 . . 3 4 3
-2 . 1 . 3 . 2 
+2 . 1 . 3 . 2
- 3 3 . 2 . 2 
+ 3 3 . 2 . 2
-  3 . 2 . 2 
+  3 . 2 . 2
-   2 2 . 1 
+   2 2 . 1
 """
    if output.getvalue() != expected:
        raise AssertionError("got a wrong answer:\n%s" % output.getvalue())

--- a/Demos/benchmarks/meteor_contest.py
+++ b/Demos/benchmarks/meteor_contest.py
@@ -143,7 +143,7 @@ def main(n):
        tk = time.time()
        times.append(tk - t0)
    return times
 if __name__ == "__main__":
    parser = optparse.OptionParser(
        usage="%prog [options]",

--- a/Demos/benchmarks/richards.py
+++ b/Demos/benchmarks/richards.py
@@ -102,13 +102,13 @@ class TaskState(object):
        self.task_waiting = False
        self.task_holding = False
        return self
    def waitingWithPacket(self):
        self.packet_pending = True
        self.task_waiting = True
        self.task_holding = False
        return self
    def isPacketPending(self):
        return self.packet_pending
@@ -233,7 +233,7 @@ class Task(TaskState):
        if t is None:
            raise Exception("Bad task id %d" % id)
        return t
 # DeviceTask
@@ -307,7 +307,7 @@ class IdleTask(Task):
        else:
            i.control = i.control//2 ^ 0xd008
            return self.release(I_DEVB)
 # WorkTask
@@ -385,7 +385,7 @@ class Richards(object):
            wkq = None;
            DeviceTask(I_DEVA, 4000, wkq, TaskState().waiting(), DeviceTaskRec());
            DeviceTask(I_DEVB, 5000, wkq, TaskState().waiting(), DeviceTaskRec());
            schedule()
            if taskWorkArea.holdCount == 9297 and taskWorkArea.qpktCount == 23246:
@@ -431,7 +431,7 @@ else:
            for it in item.__dict__.values():
                if isinstance(it, types.FunctionType):
                    pypyjit.enable(it.func_code)
 if __name__ == '__main__':
    import sys
    if len(sys.argv) >= 2:

--- a/Demos/benchmarks/spectralnorm.py
+++ b/Demos/benchmarks/spectralnorm.py
@@ -55,7 +55,7 @@ def main(n):
        tk = time()
        times.append(tk - t0)
    return times
 if __name__ == "__main__":
    parser = optparse.OptionParser(
        usage="%prog [options]",

--- a/Demos/callback/cheese.pyx
+++ b/Demos/callback/cheese.pyx
@@ -8,7 +8,7 @@ cdef extern from "cheesefinder.h":
 def find(f):
    find_cheeses(callback, <void*>f)
 cdef void callback(char *name, void *f):
    (<object>f)(name.decode('utf-8'))
--- a/Demos/libraries/setup.py
+++ b/Demos/libraries/setup.py
@@ -18,7 +18,7 @@ except:
        print("Error building external library, please create libmymath.a manually.")
        sys.exit(1)
-# Here is how to use the library built above. 
+# Here is how to use the library built above.
 ext_modules = cythonize([
    Extension("call_mymath",
              sources=["call_mymath.pyx"],

--- a/Doc/FAQ.html
+++ b/Doc/FAQ.html
@@ -4,7 +4,7 @@
              <meta name="GENERATOR" content="Mozilla/4.51 (Macintosh; I; PPC) [Netscape]"><title>FAQ.html</title></head>
 <body>
-      <center>   <h1>    <hr width="100%">Cython FAQ   
+      <center>   <h1>    <hr width="100%">Cython FAQ
 <hr width="100%"></h1>
  </center>
      <h2> Contents</h2>
@@ -21,22 +21,22 @@
     </ul>
      <hr width="100%">   <h2> <a name="CallCAPI"></a>How do I call Python/C API routines?</h2>
   Declare them as C functions inside a <tt>cdef extern from</tt> block.
-Use  the type name <tt>object</tt> for any parameters and return types which 
+Use  the type name <tt>object</tt> for any parameters and return types which
-are Python object references. Don't use the word <tt>const</tt> anywhere. 
+are Python object references. Don't use the word <tt>const</tt> anywhere.
-Here is an example which defines and uses the <tt>PyString_FromStringAndSize</tt>  routine:   
+Here is an example which defines and uses the <tt>PyString_FromStringAndSize</tt>  routine:
 <blockquote><tt>cdef extern from "Python.h":</tt> <br>
    <tt>&nbsp;&nbsp;&nbsp; object PyString_FromStringAndSize(char *, int)</tt>         <p><tt>cdef char buf[42]</tt> <br>
    <tt>my_string = PyString_FromStringAndSize(buf, 42)</tt></p>
  </blockquote>
      <h2> <a name="NullBytes"></a>How do I convert a C string containing null
 bytes to a Python string?</h2>
-   Put in a declaration for the <tt>PyString_FromStringAndSize</tt> API routine 
+   Put in a declaration for the <tt>PyString_FromStringAndSize</tt> API routine
- and use that<tt>.</tt> See <a href="#CallCAPI">How do I call Python/C API 
+ and use that<tt>.</tt> See <a href="#CallCAPI">How do I call Python/C API
 routines?</a>   <h2> <a name="NumericAccess"></a>How do I access the data inside a Numeric
 array object?</h2>
-   Use a <tt>cdef extern from</tt> block to include the Numeric header file 
+   Use a <tt>cdef extern from</tt> block to include the Numeric header file
- and declare the array object as an external extension type. The following 
+ and declare the array object as an external extension type. The following
- code illustrates how to do this:   
+ code illustrates how to do this:
 <blockquote><tt>cdef extern from "Numeric/arrayobject.h":</tt>         <p><tt>&nbsp;&nbsp;&nbsp; struct PyArray_Descr:</tt> <br>
    <tt>&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp; int type_num, elsize</tt>    <br>
    <tt>&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp; char type</tt> </p>
@@ -73,5 +73,5 @@ section of the <a href="extension_types.html">"Extension
 Types"</a> documentation page.<br>
 <h2><a name="Quack"></a>Python says my extension type has no method called 'quack', but I know it does. What gives?</h2>
 You may have declared the method using <span style="font-family: monospace;">cdef</span> instead of <span style="font-family: monospace;">def</span>. Only functions and methods declared with <span style="font-family: monospace;">def</span> are callable from Python code.<br>
--- 
+---
 </body></html>
\ No newline at end of file
--- a/Doc/extension_types.html
+++ b/Doc/extension_types.html
--- a/Doc/overview.html
+++ b/Doc/overview.html
--- a/Doc/s5/ui/default/framing.css
+++ b/Doc/s5/ui/default/framing.css
 /* The following styles size, place, and layer the slide components.
   Edit these if you want to change the overall slide layout.
-   The commented lines can be uncommented (and modified, if necessary) 
+   The commented lines can be uncommented (and modified, if necessary)
    to help you with the rearrangement process. */
 /* target = 1024x768 */

--- a/Doc/s5/ui/default/pretty.css
+++ b/Doc/s5/ui/default/pretty.css
@@ -59,7 +59,7 @@ html>body div#controls {position: fixed; padding: 0 0 1em 0;
  top: auto;}
 div#controls form {position: absolute; bottom: 0; right: 0; width: 100%;
  margin: 0; padding: 0;}
-#controls #navLinks a {padding: 0; margin: 0 0.5em; 
+#controls #navLinks a {padding: 0; margin: 0 0.5em;
  background: #f0f0f0; border: none; color: #545454;
  cursor: pointer;}
 #controls #navList {height: 1em;}

--- a/Doc/s5/ui/default/s5-core.css
+++ b/Doc/s5/ui/default/s5-core.css
 /* Do not edit or override these styles! The system will likely break if you do. */
 div#header, div#footer, div#controls, .slide {position: absolute;}
-html>body div#header, html>body div#footer, 
+html>body div#header, html>body div#footer,
  html>body div#controls, html>body .slide {position: fixed;}
 .handout {display: none;}
 .layout {display: block;}

--- a/Doc/s5/ui/default/slides.js
+++ b/Doc/s5/ui/default/slides.js
 // S5 v1.1 slides.js -- released into the Public Domain
 //
-// Please see http://www.meyerweb.com/eric/tools/s5/credits.html for information 
+// Please see http://www.meyerweb.com/eric/tools/s5/credits.html for information
 // about all the wonderful and talented contributors to this code!
 var undef;
@@ -64,7 +64,7 @@ function nodeValue(node) {
 		var children = node.childNodes;
 		for (var i = 0; i < children.length; ++i) {
 			result += nodeValue(children[i]);
-		}		
+		}
 	}
 	else if (node.nodeType == 3) {
 		result = node.nodeValue;
@@ -106,8 +106,8 @@ function currentSlide() {
 	} else {
 		cs = document.currentSlide;
 	}
-	cs.innerHTML = '<span id="csHere">' + snum + '<\/span> ' + 
+	cs.innerHTML = '<span id="csHere">' + snum + '<\/span> ' +
-		'<span id="csSep">\/<\/span> ' + 
+		'<span id="csSep">\/<\/span> ' +
 		'<span id="csTotal">' + (smax-1) + '<\/span>';
 	if (snum == 0) {
 		cs.style.visibility = 'hidden';
@@ -460,7 +460,7 @@ function notOperaFix() {
 function getIncrementals(obj) {
 	var incrementals = new Array();
-	if (!obj) 
+	if (!obj)
 		return incrementals;
 	var children = obj.childNodes;
 	for (var i = 0; i < children.length; i++) {

--- a/Doc/sharing.html
+++ b/Doc/sharing.html
@@ -4,13 +4,13 @@
         <meta name="GENERATOR" content="Mozilla/4.61 (Macintosh; I; PPC) [Netscape]"><title>Sharing Declarations Between Cython Modules</title></head>
 <body>
-   <h1>  <hr width="100%">Sharing Declarations Between Cython Modules  
+   <h1>  <hr width="100%">Sharing Declarations Between Cython Modules
 <hr width="100%"></h1>
  This section describes a new set of facilities introduced in Cython 0.8
 for making C declarations and extension types in one Cython module available
 for use in another Cython module. These facilities are closely modelled on
-the Python import mechanism, and can be thought of as a compile-time version 
+the Python import mechanism, and can be thought of as a compile-time version
-of it.  
+of it.
 <h2> Contents</h2>
   <ul>
  <li> <a href="#DefAndImpFiles">Definition and Implementation files</a></li>
@@ -21,7 +21,7 @@ of it.
   <li> <a href="#CImportStatement">The <tt>cimport</tt> statement</a></li>
       <ul>
  <li> <a href="#SearchPaths">Search paths for definition files</a></li>
-   <li> <a href="#ResolvingNamingConflicts">Using <tt>cimport</tt> to resolve 
+   <li> <a href="#ResolvingNamingConflicts">Using <tt>cimport</tt> to resolve
 naming conflicts</a></li>
      </ul>
   <li> <a href="#SharingExtensionTypes">Sharing extension types</a></li>
@@ -31,31 +31,31 @@ naming conflicts</a></li>
 a <tt>.pxd</tt> suffix, containing C declarations that are to be available
 to other Cython modules, and an <i>implementation file</i> with a <tt>.pyx</tt>
 suffix, containing everything else. When a module wants to use something
-declared in another module's definition file, it imports it using the <a href="#CImportStatement"><b>cimport</b> statement</a>.  
+declared in another module's definition file, it imports it using the <a href="#CImportStatement"><b>cimport</b> statement</a>.
 <h3> <a name="WhatDefFileContains"></a>What a Definition File contains</h3>
-  A definition file can contain:  
+  A definition file can contain:
 <ul>
  <li> Any kind of C type declaration.</li>
   <li> <b>extern</b> C function or variable declarations.</li>
   <li> The definition part of an extension type (<a href="#SharingExtensionTypes">see below</a>).</li>
  </ul>
  It cannot currently contain any non-extern C function or variable declarations
- (although this may be possible in a future version).  
+ (although this may be possible in a future version).
-<p>It cannot contain the implementations of any C or Python functions, or 
+<p>It cannot contain the implementations of any C or Python functions, or
 any Python class definitions, or any executable statements. </p>
- <blockquote>NOTE: You don't need to (and shouldn't) declare anything in a 
+ <blockquote>NOTE: You don't need to (and shouldn't) declare anything in a
-declaration file <b>public</b> in order to make it available to other Cython 
+declaration file <b>public</b> in order to make it available to other Cython
 modules; its mere presence in a definition file does that. You only need a
 public declaration if you want to make something available to external C code.</blockquote>
   <h3> <a name="WhatImpFileContains"></a>What an Implementation File contains</h3>
  An implementation file can contain any kind of Cython statement, although
- there are some restrictions on the implementation part of an extension type 
+ there are some restrictions on the implementation part of an extension type
 if the corresponding definition file also defines that type (see below).
 <h2> <a name="CImportStatement"></a>The <tt>cimport</tt> statement</h2>
  The <b>cimport</b> statement is used in a definition or implementation
 file to gain access to names declared in another definition file. Its syntax
-exactly parallels that of the normal Python import statement:  
+exactly parallels that of the normal Python import statement:
 <blockquote><tt>cimport </tt><i>module</i><tt> [, </tt><i>module</i><tt>...]</tt></blockquote>
   <blockquote><tt>from </tt><i>module</i><tt> cimport </tt><i>name</i><tt>
 [as   </tt><i>name</i><tt>] [, </tt><i>name</i><tt> [as </tt><i>name</i><tt>]
@@ -90,10 +90,10 @@ exactly parallels that of the normal Python import statement:
  </tr>
      </tbody> </table>
   <p>It is important to understand that the <b>cimport</b> statement can <i>only</i>
-be used to import C data types, external C functions and variables, and extension 
+be used to import C data types, external C functions and variables, and extension
-types. It cannot be used to import any Python objects, and (with one exception) 
+types. It cannot be used to import any Python objects, and (with one exception)
-it doesn't imply any Python import at run time. If you want to refer to any 
+it doesn't imply any Python import at run time. If you want to refer to any
-Python names from a module that you have cimported, you will have to include 
+Python names from a module that you have cimported, you will have to include
 a regular <b>import</b> statement for it as well. </p>
 <p>The exception is that when you use <b>cimport</b> to import an extension
 type, its type object is imported at run time and made available by the
@@ -103,7 +103,7 @@ types is covered in more detail <a href="#SharingExtensionTypes">below</a>.
 <h3> <a name="SearchPaths"></a>Search paths for definition files</h3>
  When you <b>cimport</b> a module called <tt>modulename</tt>, the Cython
 compiler searches for a file called <tt>modulename.pxd</tt> along the search
-path for include files, as specified by <b>-I</b> command line options.  
+path for include files, as specified by <b>-I</b> command line options.
 <p>Also, whenever you compile a file <tt>modulename.pyx</tt>, the corresponding
 definition file <tt>modulename.pxd</tt> is first searched for along the
 same path, and if found, it is processed before processing the <tt>.pyx</tt>
@@ -146,7 +146,7 @@ type's C attributes and C methods.<br>
 <br>
 The implementation part must implement all of the C methods declared in
 the definition part, and may not add any further C attributes. It may also
-define Python methods.  
+define Python methods.
 <p>Here is an example of a module which defines and exports an extension
 type, and another module which uses it. <br>
 &nbsp; <table cellpadding="5" cols="2" width="100%">
@@ -188,9 +188,9 @@ type, and another module which uses it. <br>
  <li> There is a <tt>cdef class Shrubbery</tt> declaration in both Shrubbing.pxd
 and Shrubbing.pyx. When the Shrubbing module is compiled, these two declarations
 are combined into one.</li>
- &nbsp; <li> In Landscaping.pyx, the <tt>cimport Shrubbing</tt> declaration 
+ &nbsp; <li> In Landscaping.pyx, the <tt>cimport Shrubbing</tt> declaration
-allows us to refer to the Shrubbery type as <tt>Shrubbing.Shrubbery</tt>. 
+allows us to refer to the Shrubbery type as <tt>Shrubbing.Shrubbery</tt>.
 But it doesn't bind the name <tt>Shrubbery</tt> in Landscaping's module namespace
 at run time, so to access <tt>Shrubbery.standard_shrubbery</tt> we also
 need to <tt>import Shrubbing</tt>.</li>

--- a/Doc/special_methods.html
+++ b/Doc/special_methods.html
--- a/Makefile
+++ b/Makefile
@@ -2,7 +2,7 @@ PYTHON?=python
 TESTOPTS?=
 REPO = git://github.com/cython/cython.git
-all:    local 
+all:    local
 local:
 	${PYTHON} setup.py build_ext --inplace
@@ -23,8 +23,8 @@ clean:
 	@echo Cleaning Source
 	@rm -fr build
 	@rm -f *.py[co] */*.py[co] */*/*.py[co] */*/*/*.py[co]
-	@rm -f *.so */*.so */*/*.so 
+	@rm -f *.so */*.so */*/*.so
-	@rm -f *.pyd */*.pyd */*/*.pyd 
+	@rm -f *.pyd */*.pyd */*/*.pyd
 	@rm -f *~ */*~ */*/*~
 	@rm -f core */core
 	@rm -f Cython/Compiler/*.c

--- a/Tools/cython-numpy-mode-kate.xml
+++ b/Tools/cython-numpy-mode-kate.xml
--- a/Tools/jedityper.py
+++ b/Tools/jedityper.py
@@ -31,7 +31,7 @@ def analyse(source_path=None, code=None):
        raise ValueError("Either 'source_path' or 'code' is required.")
    scoped_names = {}
    statement_iter = jedi.names(source=code, path=source_path, all_scopes=True)
    for statement in statement_iter:
        parent = statement.parent()
        scope = parent._definition
@@ -45,7 +45,7 @@ def analyse(source_path=None, code=None):
            names = scoped_names[key]
        except KeyError:
            names = scoped_names[key] = defaultdict(set)
        position = statement.start_pos if statement.name in names else None
        for name_type in evaluator.find_types(scope, statement.name, position=position ,search_global=True):
@@ -60,8 +60,8 @@ def analyse(source_path=None, code=None):
                type_name = None
            else:
                try:
-                    type_name = type(name_type.obj).__name__                
+                    type_name = type(name_type.obj).__name__
-                except AttributeError as error:                    
+                except AttributeError as error:
                    type_name = None
            if type_name is not None:
                names[str(statement.name)].add(type_name)

--- a/Tools/kate.diff
+++ b/Tools/kate.diff
--- a/Tools/site_scons/site_tools/pyext.py
+++ b/Tools/site_scons/site_tools/pyext.py
@@ -133,7 +133,7 @@ def set_basic_vars(env):
    # this work, we need to know whether PYEXTCC accepts /c and /Fo or -c -o.
    # This is difficult with the current way tools work in scons.
    pycc, pycxx, pylink = pyext_coms(sys.platform)
    env['PYEXTLINKFLAGSEND'] = SCons.Util.CLVar('$LINKFLAGSEND')
    env['PYEXTCCCOM'] = pycc
@@ -157,7 +157,7 @@ def _set_configuration_nodistutils(env):
    for k, v in def_cfg.items():
        ifnotset(env, k, v)
-    ifnotset(env, 'PYEXT_ALLOW_UNDEFINED', 
+    ifnotset(env, 'PYEXT_ALLOW_UNDEFINED',
             SCons.Util.CLVar('$ALLOW_UNDEFINED'))
    ifnotset(env, 'PYEXTLINKFLAGS', SCons.Util.CLVar('$LDMODULEFLAGS'))
@@ -178,12 +178,12 @@ def set_configuration(env, use_distutils):
    # We define commands as strings so that we can either execute them using
    # eval (same python for scons and distutils) or by executing them through
    # the shell.
-    dist_cfg = {'PYEXTCC': ("sysconfig.get_config_var('CC')", False), 
+    dist_cfg = {'PYEXTCC': ("sysconfig.get_config_var('CC')", False),
-                'PYEXTCFLAGS': ("sysconfig.get_config_var('CFLAGS')", True), 
+                'PYEXTCFLAGS': ("sysconfig.get_config_var('CFLAGS')", True),
-                'PYEXTCCSHARED': ("sysconfig.get_config_var('CCSHARED')", False), 
+                'PYEXTCCSHARED': ("sysconfig.get_config_var('CCSHARED')", False),
-                'PYEXTLINKFLAGS': ("sysconfig.get_config_var('LDFLAGS')", True), 
+                'PYEXTLINKFLAGS': ("sysconfig.get_config_var('LDFLAGS')", True),
-                'PYEXTLINK': ("sysconfig.get_config_var('LDSHARED')", False), 
+                'PYEXTLINK': ("sysconfig.get_config_var('LDSHARED')", False),
-                'PYEXTINCPATH': ("sysconfig.get_python_inc()", False), 
+                'PYEXTINCPATH': ("sysconfig.get_python_inc()", False),
                'PYEXTSUFFIX': ("sysconfig.get_config_var('SO')", False)}
    from distutils import sysconfig
@@ -208,7 +208,7 @@ def generate(env):
    if 'PYEXT_USE_DISTUTILS' not in env:
        env['PYEXT_USE_DISTUTILS'] = False
-    # This sets all constructions variables used for pyext builders. 
+    # This sets all constructions variables used for pyext builders.
    set_basic_vars(env)
    set_configuration(env, env['PYEXT_USE_DISTUTILS'])

--- a/docs/TODO
+++ b/docs/TODO
@@ -6,21 +6,21 @@ Background
 The "Old Cython Users Guide" is a derivative of the old Pyrex documentation.
 It underwent substantial editing by Peter Alexandar
 to become the Reference Guide, which is oriented around bullet points
-and lists rather than prose. This transition was incomplete. 
+and lists rather than prose. This transition was incomplete.
-At nearly the same time, Robert, Dag, and Stefan wrote a tutorial as 
+At nearly the same time, Robert, Dag, and Stefan wrote a tutorial as
-part of the SciPy proceedings. It was felt that the content there was 
+part of the SciPy proceedings. It was felt that the content there was
-cleaner and more up to date than anything else, and this became the 
+cleaner and more up to date than anything else, and this became the
-basis for the "Getting Started" and "Tutorials" sections. However, 
+basis for the "Getting Started" and "Tutorials" sections. However,
-it simply doesn't have as much content as the old documentation used to. 
+it simply doesn't have as much content as the old documentation used to.
 Eventually, it seems all of the old users manual could be whittled
 down into independent tutorial topics. Much discussion of what we'd
-like to see is at 
+like to see is at
 http://www.mail-archive.com/cython-dev@codespeak.net/msg06945.html
-There is currently a huge amount of redundancy, but no one section has 
+There is currently a huge amount of redundancy, but no one section has
-it all. 
+it all.
 Also, we should go through the wiki enhancement proposal list
-and make sure to transfer the (done) ones into the user manual. 
+and make sure to transfer the (done) ones into the user manual.
--- a/docs/src/quickstart/demo.pyx
+++ b/docs/src/quickstart/demo.pyx
@@ -77,5 +77,5 @@ def integrate_f2(double a, double b, int N):
    for i in range(N):
        s += f2(a+i*dx)
    return s * dx
 timeit(integrate_f2, "Typed func")
--- a/docs/src/quickstart/overview.rst
+++ b/docs/src/quickstart/overview.rst
@@ -25,7 +25,7 @@ Originally based on the well-known Pyrex [Pyrex]_, the Cython project
 has approached this problem by means of a source code compiler that
 translates Python code to equivalent C code.  This code is executed
 within the CPython runtime environment, but at the speed of compiled C
-and with the ability to call directly into C libraries. 
+and with the ability to call directly into C libraries.
 At the same time, it keeps the original interface of the Python
 source code, which makes it directly usable from Python code.  These
 two-fold characteristics enable Cython's two major use cases:
@@ -48,7 +48,7 @@ language.
 .. [IronPython] Jim Hugunin et al., http://www.codeplex.com/IronPython.
 .. [Jython] J. Huginin, B. Warsaw, F. Bock, et al.,
   Jython: Python for the Java platform, http://www.jython.org.
-.. [PyPy] The PyPy Group, PyPy: a Python implementation written in Python, 
+.. [PyPy] The PyPy Group, PyPy: a Python implementation written in Python,
   http://pypy.org.
 .. [Pyrex] G. Ewing, Pyrex: C-Extensions for Python,
   http://www.cosc.canterbury.ac.nz/greg.ewing/python/Pyrex/

--- a/docs/src/tutorial/appendix.rst
+++ b/docs/src/tutorial/appendix.rst
 Appendix: Installing MinGW on Windows
 =====================================
- 1. Download the MinGW installer from 
+ 1. Download the MinGW installer from
-    http://www.mingw.org/wiki/HOWTO_Install_the_MinGW_GCC_Compiler_Suite. 
+    http://www.mingw.org/wiki/HOWTO_Install_the_MinGW_GCC_Compiler_Suite.
    (As of this
    writing, the download link is a bit difficult to find; it's under
    "About" in the menu on the left-hand side). You want the file

--- a/docs/src/tutorial/caveats.rst
+++ b/docs/src/tutorial/caveats.rst
@@ -15,5 +15,5 @@ for Python users, so this list may change in the future.
   print(range(-n, n))`` will print an empty list, since ``-n`` wraps
   around to a large positive integer prior to being passed to the
   ``range`` function.
- - Python's ``float`` type actually wraps C ``double`` values, and 
+ - Python's ``float`` type actually wraps C ``double`` values, and
   the ``int`` type in Python 2.x wraps C ``long`` values.
--- a/docs/src/tutorial/data.py
+++ b/docs/src/tutorial/data.py
@@ -2,11 +2,11 @@
 'title': 'Cython Tutorial',
 'paper_abstract': '''
 Cython is a programming language based on Python with extra
-syntax to provide static type declarations. This takes advantage of the 
+syntax to provide static type declarations. This takes advantage of the
-benefits of Python while allowing one to achieve the speed of C. 
+benefits of Python while allowing one to achieve the speed of C.
-In this paper we describe the Cython language and show how it can 
+In this paper we describe the Cython language and show how it can
-be used both to write optimized code and to interface with external 
+be used both to write optimized code and to interface with external
-C libraries. 
+C libraries.
 ''',
 'authors': [
     {'first_names': 'Stefan',

--- a/docs/src/tutorial/profiling_tutorial.rst
+++ b/docs/src/tutorial/profiling_tutorial.rst
@@ -6,7 +6,7 @@
 Profiling
 *********
-This part describes the profiling abilities of Cython. If you are familiar 
+This part describes the profiling abilities of Cython. If you are familiar
 with profiling pure Python code, you can only read the first section
 (:ref:`profiling_basics`). If you are not familiar with Python profiling you
 should also read the tutorial (:ref:`profiling_tutorial`) which takes you
@@ -17,7 +17,7 @@ through a complete example step by step.
 Cython Profiling Basics
 =======================
-Profiling in Cython is controlled by a compiler directive. 
+Profiling in Cython is controlled by a compiler directive.
 It can be set either for an entire file or on a per function basis
 via a Cython decorator.
@@ -26,7 +26,7 @@ Enabling profiling for a complete source file
 Profiling is enabled for a complete source file via a global directive to the
 Cython compiler at the top of a file::
   # cython: profile=True
 Note that profiling gives a slight overhead to each function call therefore making
@@ -35,7 +35,7 @@ often).
 Once enabled, your Cython code will behave just like Python code when called
 from the cProfile module. This means you can just profile your Cython code
-together with your Python code using the same tools as for Python code alone. 
+together with your Python code using the same tools as for Python code alone.
 Disabling profiling function wise
 ---------------------------------
@@ -111,7 +111,7 @@ Profiling Tutorial
 ==================
 This will be a complete tutorial, start to finish, of profiling Python code,
-turning it into Cython code and keep profiling until it is fast enough. 
+turning it into Cython code and keep profiling until it is fast enough.
 As a toy example, we would like to evaluate the summation of the reciprocals of
 squares up to a certain integer :math:`n` for evaluating :math:`\pi`. The
@@ -120,8 +120,8 @@ relation we want to use has been proven by Euler in 1735 and is known as the
 .. math::
-   \pi^2 = 6 \sum_{k=1}^{\infty} \frac{1}{k^2} = 
+   \pi^2 = 6 \sum_{k=1}^{\infty} \frac{1}{k^2} =
-   6 \lim_{k \to \infty} \big( \frac{1}{1^2} + 
+   6 \lim_{k \to \infty} \big( \frac{1}{1^2} +
         \frac{1}{2^2} + \dots + \frac{1}{k^2}  \big) \approx
   6 \big( \frac{1}{1^2} + \frac{1}{2^2} + \dots + \frac{1}{n^2}  \big)
@@ -139,7 +139,7 @@ A simple Python code for evaluating the truncated sum looks like this::
       for k in range(1,n+1):
           val += recip_square(k)
       return (6 * val)**.5
 On my box, this needs approximately 4 seconds to run the function with the
 default n. The higher we choose n, the better will be the approximation for
 :math:`\pi`. An experienced Python programmer will already see plenty of
@@ -186,7 +186,7 @@ Python `profiling documentation <http://docs.python.org/library/profile.html>`_
 for the nitty gritty details. The most important columns here are totime (total
 time spent in this function **not** counting functions that were called by this
 function) and cumtime (total time spent in this function **also** counting the
-functions called by this function). Looking at the tottime column, we see that 
+functions called by this function). Looking at the tottime column, we see that
 approximately half the time is spent in approx_pi and the other half is spent
 in recip_square. Also half a second is spent in range ... of course we should
 have used xrange for such a big iteration. And in fact, just changing range to
@@ -213,7 +213,7 @@ anyway at some time to get the loop run faster. Here is our first Cython version
 Note the second line: We have to tell Cython that profiling should be enabled.
 This makes the Cython code slightly slower, but without this we would not get
 meaningful output from the cProfile module. The rest of the code is mostly
-unchanged, I only typed some variables which will likely speed things up a bit. 
+unchanged, I only typed some variables which will likely speed things up a bit.
 We also need to modify our profiling script to import the Cython module directly.
 Here is the complete version adding the import of the pyximport module::

--- a/docs/src/tutorial/related_work.rst
+++ b/docs/src/tutorial/related_work.rst
@@ -45,6 +45,6 @@ Python modules.
   http://www.cosc.canterbury.ac.nz/greg.ewing/python/Pyrex/
 .. [ShedSkin] M. Dufour, J. Coughlan, ShedSkin,
   http://code.google.com/p/shedskin/
-.. [SWIG] David M. Beazley et al., 
+.. [SWIG] David M. Beazley et al.,
-   SWIG: An Easy to Use Tool for Integrating Scripting Languages with C and C++, 
+   SWIG: An Easy to Use Tool for Integrating Scripting Languages with C and C++,
   http://www.swig.org.
--- a/docs/src/userguide/early_binding_for_speed.rst
+++ b/docs/src/userguide/early_binding_for_speed.rst
@@ -99,7 +99,7 @@ overheads. Consider this code:
        rect = Rectangle(x0, y0, x1, y1)
        return rect.area()
-.. note:: 
+.. note::
    in earlier versions of Cython, the :keyword:`cpdef` keyword is
    ``rdef`` - but has the same effect).
@@ -116,13 +116,13 @@ storing a Rectangle object, then invoking the area method will require:
 * an attribute lookup for the area method
 * packing a tuple for arguments and a dict for keywords (both empty in this case)
-* using the Python API to call the method 
+* using the Python API to call the method
 and within the area method itself:
 * parsing the tuple and keywords
 * executing the calculation code
-* converting the result to a python object and returning it 
+* converting the result to a python object and returning it
 So within Cython, it is possible to achieve massive optimisations by
 using strong typing in declaration and casting of variables. For tight loops

--- a/docs/src/userguide/extension_types.rst
+++ b/docs/src/userguide/extension_types.rst
@@ -35,7 +35,7 @@ The main difference is that you can use the :keyword:`cdef` statement to define
 attributes. The attributes may be Python objects (either generic or of a
 particular extension type), or they may be of any C data type. So you can use
 extension types to wrap arbitrary C data structures and provide a Python-like
-interface to them.  
+interface to them.
 .. _readonly:
@@ -117,35 +117,35 @@ The same consideration applies to local variables, for example,::
 Type Testing and Casting
 ------------------------
-Suppose I have a method :meth:`quest` which returns an object of type :class:`Shrubbery`. 
+Suppose I have a method :meth:`quest` which returns an object of type :class:`Shrubbery`.
 To access it's width I could write::
    cdef Shrubbery sh = quest()
    print sh.width
-which requires the use of a local variable and performs a type test on assignment. 
+which requires the use of a local variable and performs a type test on assignment.
 If you *know* the return value of :meth:`quest` will be of type :class:`Shrubbery`
 you can use a cast to write::
    print (<Shrubbery>quest()).width
-This may be dangerous if :meth:`quest()` is not actually a :class:`Shrubbery`, as it 
+This may be dangerous if :meth:`quest()` is not actually a :class:`Shrubbery`, as it
-will try to access width as a C struct member which may not exist. At the C level, 
+will try to access width as a C struct member which may not exist. At the C level,
-rather than raising an :class:`AttributeError`, either an nonsensical result will be 
+rather than raising an :class:`AttributeError`, either an nonsensical result will be
 returned (interpreting whatever data is at that address as an int) or a segfault
 may result from trying to access invalid memory. Instead, one can write::
    print (<Shrubbery?>quest()).width
-which performs a type check (possibly raising a :class:`TypeError`) before making the 
+which performs a type check (possibly raising a :class:`TypeError`) before making the
-cast and allowing the code to proceed. 
+cast and allowing the code to proceed.
-To explicitly test the type of an object, use the :meth:`isinstance` method. By default, 
+To explicitly test the type of an object, use the :meth:`isinstance` method. By default,
-in Python, the :meth:`isinstance` method checks the :class:`__class__` attribute of the 
+in Python, the :meth:`isinstance` method checks the :class:`__class__` attribute of the
-first argument to determine if it is of the required type. However, this is potentially 
+first argument to determine if it is of the required type. However, this is potentially
-unsafe as the :class:`__class__` attribute can be spoofed or changed, but the C structure 
+unsafe as the :class:`__class__` attribute can be spoofed or changed, but the C structure
-of an extension type must be correct to access its :keyword:`cdef` attributes and call its :keyword:`cdef` methods. Cython detects if the second argument is a known extension 
+of an extension type must be correct to access its :keyword:`cdef` attributes and call its :keyword:`cdef` methods. Cython detects if the second argument is a known extension
-type and does a type check instead, analogous to Pyrex's :meth:`typecheck`.  
+type and does a type check instead, analogous to Pyrex's :meth:`typecheck`.
 The old behavior is always available by passing a tuple as the second parameter::
    print isinstance(sh, Shrubbery)     # Check the type of sh
@@ -207,7 +207,7 @@ with checking that it has the right type.
      be ``None``.
    * When comparing a value with ``None``, keep in mind that, if ``x`` is a Python
      object, ``x is None`` and ``x is not None`` are very efficient because they
-      translate directly to C pointer comparisons, whereas ``x == None`` and 
+      translate directly to C pointer comparisons, whereas ``x == None`` and
      ``x != None``, or simply using ``x`` as a boolean value (as in ``if x: ...``)
      will invoke Python operations and therefore be much slower.
@@ -260,7 +260,7 @@ There is also a special (deprecated) legacy syntax for defining properties in an
            def __del__(self):
                # This is called when the property is deleted.
 The :meth:`__get__`, :meth:`__set__` and :meth:`__del__` methods are all
 optional; if they are omitted, an exception will be raised when the
@@ -269,7 +269,7 @@ corresponding operation is attempted.
 Here's a complete example. It defines a property which adds to a list each
 time it is written to, returns the list when it is read, and empties the list
 when it is deleted.::
    # cheesy.pyx
    cdef class CheeseShop:
@@ -494,7 +494,7 @@ object called :attr:`__weakref__`. For example,::
    cdef class ExplodingAnimal:
        """This animal will self-destruct when it is
        no longer strongly referenced."""
        cdef object __weakref__
@@ -546,7 +546,7 @@ can participate in cycles could cause memory leaks ::
        cdef str name
        cdef tuple addresses
-If you can be sure addresses will contain only references to strings, 
+If you can be sure addresses will contain only references to strings,
 the above would be safe, and it may yield a significant speedup, depending on
 your usage pattern.
@@ -604,7 +604,7 @@ built-in complex object.::
    2. As well as the name of the extension type, the module in which its type
       object can be found is also specified. See the implicit importing section
-       below. 
+       below.
    3. When declaring an external extension type, you don't declare any
       methods.  Declaration of methods is not required in order to call them,
@@ -662,7 +662,7 @@ You can also specify an alternative name under which to import the type using
 an as clause, for example,::
      cdef extern class My.Nested.Package.Spam as Yummy:
-         ... 
+         ...
 which corresponds to the implicit import statement::

--- a/docs/src/userguide/external_C_code.rst
+++ b/docs/src/userguide/external_C_code.rst
@@ -52,7 +52,7 @@ C header file, like this::
 The ``cdef extern`` from clause does three things:
 1. It directs Cython to place a ``#include`` statement for the named header file in
-   the generated C code.  
+   the generated C code.
 2. It prevents Cython from generating any C code
   for the declarations found in the associated block.
 3. It treats all declarations within the block as though they started with
@@ -92,8 +92,8 @@ match the C ones, and in some cases they shouldn't or can't. In particular:
       ctypedef int word
   will work okay whatever the actual size of a :c:type:`word` is (provided the header
-   file defines it correctly). Conversion to and from Python types, if any, will also 
+   file defines it correctly). Conversion to and from Python types, if any, will also
-   be used for this new type. 
+   be used for this new type.
 #. If the header file uses macros to define constants, translate them into a
   normal external variable declaration.  You can also declare them as an
@@ -118,7 +118,7 @@ A few more tricks and tips:
          pass
 * If you want to include a system header, put angle brackets inside the quotes::
      cdef extern from "<sysheader.h>":
          ...
@@ -390,8 +390,8 @@ C code wanting to use these functions or extension types needs to include the
 header and call the :func:`import_modulename` function. The other functions
 can then be called and the extension types used as usual.
-If the C code wanting to use these functions is part of more than one shared 
+If the C code wanting to use these functions is part of more than one shared
-library or executable, then :func:`import_modulename` function needs to be 
+library or executable, then :func:`import_modulename` function needs to be
 called in each of the shared libraries which use these functions. If you
 crash with a segmentation fault (SIGSEGV on linux) when calling into one of
 these api calls, this is likely an indication that the shared library which
@@ -411,7 +411,7 @@ made available when you include :file:`modulename_api.h`.::
            print "Time travel achieved"
 .. sourcecode:: c
    # marty.c
    #include "delorean_api.h"
@@ -420,7 +420,7 @@ made available when you include :file:`modulename_api.h`.::
    int main(int argc, char *argv[]) {
        import_delorean();
        car.speed = atoi(argv[1]);
-        car.power = atof(argv[2]); 
+        car.power = atof(argv[2]);
        activate(&car);
    }

--- a/docs/src/userguide/language_basics.rst
+++ b/docs/src/userguide/language_basics.rst
@@ -169,7 +169,7 @@ passed in directly using a normal C function call.
 Functions declared using :keyword:`cdef`, like Python functions, will return a :keyword:`False`
 value when execution leaves the function body without an explicit return value. This is in
-contrast to C/C++, which leaves the return value undefined. 
+contrast to C/C++, which leaves the return value undefined.
 A more complete comparison of the pros and cons of these different method
 types can be found at :ref:`early-binding-for-speed`.

--- a/docs/src/userguide/memoryviews.rst
+++ b/docs/src/userguide/memoryviews.rst
@@ -398,10 +398,10 @@ If you pass a non-contiguous buffer, for example
 you will get a ``ValueError`` at runtime::
    /Users/mb312/dev_trees/minimal-cython/mincy.pyx in init mincy (mincy.c:17267)()
-        69 
+        69
        70 # But this isn't
    ---> 71 c_contiguous = np.array(c_contig, order='F')
-        72 
+        72
        73 # Show the sum of all the arrays before altering it
    /Users/mb312/dev_trees/minimal-cython/stringsource in View.MemoryView.memoryview_cwrapper (mincy.c:9995)()

--- a/docs/src/userguide/numpy_tutorial.rst
+++ b/docs/src/userguide/numpy_tutorial.rst
@@ -20,13 +20,13 @@ information on this.
 The style of this tutorial will not fit everybody, so you can also consider:
-* Robert Bradshaw's `slides on cython for SciPy2008 
+* Robert Bradshaw's `slides on cython for SciPy2008
-  <http://wiki.sagemath.org/scipy08?action=AttachFile&do=get&target=scipy-cython.tgz>`_ 
+  <http://wiki.sagemath.org/scipy08?action=AttachFile&do=get&target=scipy-cython.tgz>`_
  (a higher-level and quicker introduction)
 * Basic Cython documentation (see `Cython front page <http://cython.org>`_).
 * ``[:enhancements/buffer:Spec for the efficient indexing]``
-.. Note:: 
+.. Note::
    The fast array access documented below is a completely new feature, and
    there may be bugs waiting to be discovered. It might be a good idea to do
    a manual sanity check on the C code Cython generates before using this for
@@ -71,7 +71,7 @@ However there are several options to automate these steps:
   excellent support for using Cython and NumPy from an interactive command
   line (like IPython) or through a notebook interface (like
   Maple/Mathematica). See `this documentation
-   <http://www.sagemath.org/doc/prog/node40.html>`_.  
+   <http://www.sagemath.org/doc/prog/node40.html>`_.
 2. A version of `pyximport <http://www.prescod.net/pyximport/>`_ is shipped
   with Cython, so that you can import pyx-files dynamically into Python and
   have them compiled automatically (See :ref:`pyximport`).
@@ -79,7 +79,7 @@ However there are several options to automate these steps:
   which automate the process, this is the preferred method for full programs.
 4. Manual compilation (see below)
-.. Note:: 
+.. Note::
    If using another interactive command line environment than SAGE, like
    IPython or Python itself, it is important that you restart the process
    when you recompile the module. It is not enough to issue an "import"
@@ -200,7 +200,7 @@ run a Python session to test both the Python version (imported from
        [2, 2, 2],
        [1, 1, 1]])
    In [4]: import convolve1
-    In [4]: convolve1.naive_convolve(np.array([[1, 1, 1]], dtype=np.int), 
+    In [4]: convolve1.naive_convolve(np.array([[1, 1, 1]], dtype=np.int),
    ...     np.array([[1],[2],[1]], dtype=np.int))
    Out [4]:
    array([[1, 1, 1],
@@ -347,7 +347,7 @@ Showing the changes needed to produce :file:`convolve3.pyx` only::
    def naive_convolve(np.ndarray[DTYPE_t, ndim=2] f, np.ndarray[DTYPE_t, ndim=2] g):
    ...
    cdef np.ndarray[DTYPE_t, ndim=2] h = ...
 Usage:
 .. sourcecode:: ipython
@@ -381,7 +381,7 @@ The array lookups are still slowed down by two factors:
        @cython.boundscheck(False) # turn off bounds-checking for entire function
        def naive_convolve(np.ndarray[DTYPE_t, ndim=2] f, np.ndarray[DTYPE_t, ndim=2] g):
        ...
 Now bounds checking is not performed (and, as a side-effect, if you ''do''
 happen to access out of bounds you will in the best case crash your program
 and in the worst case corrupt data). It is possible to switch bounds-checking
@@ -477,14 +477,14 @@ or may not happen depending on available developer time and resources for
 Cython.
 1. Support for efficient access to structs/records stored in arrays; currently
-   only primitive types are allowed.  
+   only primitive types are allowed.
 2. Support for efficient access to complex floating point types in arrays. The
   main obstacle here is getting support for efficient complex datatypes in
   Cython.
 3. Calling NumPy/SciPy functions currently has a Python call overhead; it
   would be possible to take a short-cut from Cython directly to C. (This does
   however require some isolated and incremental changes to those libraries;
-   mail the Cython mailing list for details).  
+   mail the Cython mailing list for details).
 4. Efficient code that is generic with respect to the number of dimensions.
   This can probably be done today by calling the NumPy C multi-dimensional
   iterator API directly; however it would be nice to have for-loops over

--- a/docs/src/userguide/pyrex_differences.rst
+++ b/docs/src/userguide/pyrex_differences.rst
@@ -6,14 +6,14 @@
 Differences between Cython and Pyrex
 **************************************
-.. warning:: 
+.. warning::
-    Both Cython and Pyrex are moving targets. It has come to the point 
+    Both Cython and Pyrex are moving targets. It has come to the point
-    that an explicit list of all the differences between the two 
+    that an explicit list of all the differences between the two
-    projects would be laborious to list and track, but hopefully 
+    projects would be laborious to list and track, but hopefully
-    this high-level list gives an idea of the differences that 
+    this high-level list gives an idea of the differences that
    are present. It should be noted that both projects make an effort
-    at mutual compatibility, but Cython's goal is to be as close to 
+    at mutual compatibility, but Cython's goal is to be as close to
-    and complete as Python as reasonable. 
+    and complete as Python as reasonable.
 Python 3 Support
@@ -75,7 +75,7 @@ Conditional expressions as described in
 http://www.python.org/dev/peps/pep-0308/::
    X if C else Y
 Only one of ``X`` and ``Y`` is evaluated (depending on the value of C).
@@ -89,10 +89,10 @@ keyword passed on to the C compiler. These can be as fast as macros.::
    cdef inline int something_fast(int a, int b):
        return a*a + b
 Note that class-level :keyword:`cdef` functions are handled via a virtual
 function table, so the compiler won't be able to inline them in almost all
-cases. 
+cases.
 Assignment on declaration (e.g. "cdef int spam = 5")
 ======================================================
@@ -103,24 +103,24 @@ In Pyrex, one must write::
    i = 2
    j = 5
    k = 7
 Now, with cython, one can write::
    cdef int i = 2, j = 5, k = 7
 The expression on the right hand side can be arbitrarily complicated, e.g.::
    cdef int n = python_call(foo(x,y), a + b + c) - 32
 'by' expression in for loop (e.g. "for i from 0 <= i < 10 by 2")
 ==================================================================
 ::
    for i from 0 <= i < 10 by 2:
        print i
 yields::
@@ -207,7 +207,7 @@ method on the class directly, e.g.::
    x.foo()  # will check to see if overridden
    A.foo(x) # will call A's implementation whether overridden or not
-See :ref:`early-binding-for-speed` for explanation and usage tips. 
+See :ref:`early-binding-for-speed` for explanation and usage tips.
 .. _automatic-range-conversion:
@@ -216,9 +216,9 @@ Automatic range conversion
 This will convert statements of the form ``for i in range(...)`` to ``for i
 from ...`` when ``i`` is any cdef'd integer type, and the direction (i.e. sign
-of step) can be determined. 
+of step) can be determined.
-.. warning:: 
+.. warning::
    This may change the semantics if the range causes
    assignment to ``i`` to overflow. Specifically, if this option is set, an error
@@ -256,7 +256,7 @@ functions in the ``.pxd`` file by writing ``cdef foo(x=*)``. The number of
 arguments may increase on subclassing, but the argument types and order must
 remain the same. There is a slight performance penalty in some cases when a
 cdef/cpdef function without any optional is overridden with one that does have
-default argument values. 
+default argument values.
 For example, one can have the ``.pxd`` file::
@@ -279,7 +279,7 @@ with corresponding ``.pyx`` file::
        cpdef foo(self, x=True, int k=3)
            print "C", x, k
-.. note:: 
+.. note::
    this also demonstrates how :keyword:`cpdef` functions can override
    :keyword:`cdef` functions.
@@ -330,13 +330,13 @@ From __future__ directives
 Cython supports several ``from __future__ import ...`` directives, namely
 ``absolute_import``, ``unicode_literals``, ``print_function`` and ``division``.
-With statements are always enabled. 
+With statements are always enabled.
 Pure Python mode
 ================
-Cython has support for compiling ``.py`` files, and 
+Cython has support for compiling ``.py`` files, and
 accepting type annotations using decorators and other
-valid Python syntax. This allows the same source to 
+valid Python syntax. This allows the same source to
-be interpreted as straight Python, or compiled for 
+be interpreted as straight Python, or compiled for
 optimized results. See :ref:`pure-mode` for more details.
--- a/docs/src/userguide/sharing_declarations.rst
+++ b/docs/src/userguide/sharing_declarations.rst
@@ -24,9 +24,9 @@ statement.
 A ``.pxd`` file that consists solely of extern declarations does not need
 to correspond to an actual ``.pyx`` file or Python module. This can make it a
-convenient place to put common declarations, for example declarations of 
+convenient place to put common declarations, for example declarations of
 functions from  an :ref:`external library <external-C-code>` that one
-wants to use in several modules. 
+wants to use in several modules.
 What a Definition File contains
@@ -40,9 +40,9 @@ A definition file can contain:
 * The definition part of an extension type (see below).
 It cannot contain the implementations of any C or Python functions, or any
-Python class definitions, or any executable statements. It is needed when one 
+Python class definitions, or any executable statements. It is needed when one
-wants to  access :keyword:`cdef` attributes and methods, or to inherit from 
+wants to  access :keyword:`cdef` attributes and methods, or to inherit from
-:keyword:`cdef` classes defined in this module. 
+:keyword:`cdef` classes defined in this module.
 .. note::
@@ -57,9 +57,9 @@ What an Implementation File contains
 An implementation file can contain any kind of Cython statement, although there
 are some restrictions on the implementation part of an extension type if the
-corresponding definition file also defines that type (see below). 
+corresponding definition file also defines that type (see below).
 If one doesn't need to :keyword:`cimport` anything from this module, then this
-is the only file one needs. 
+is the only file one needs.
 .. _cimport:
@@ -79,16 +79,16 @@ statement::
 Here is an example. :file:`dishes.pxd` is a definition file which exports a
 C data type. :file:`restaurant.pyx` is an implementation file which imports and
 uses it.
 :file:`dishes.pxd`::
-   cdef enum otherstuff:       
+   cdef enum otherstuff:
-       sausage, eggs, lettuce  
+       sausage, eggs, lettuce
-   cdef struct spamdish:       
+   cdef struct spamdish:
-       int oz_of_spam          
+       int oz_of_spam
-       otherstuff filler       
+       otherstuff filler
 :file:`restaurant.pyx`::
    cimport dishes
@@ -102,7 +102,7 @@ uses it.
        cdef spamdish d
        prepare(&d)
        print "%d oz spam, filler no. %d" % (d.oz_of_spam, d.filler)
 It is important to understand that the :keyword:`cimport` statement can only
 be used to import C data types, C functions and variables, and extension
 types. It cannot be used to import any Python objects, and (with one
@@ -113,9 +113,9 @@ to include a regular import statement for it as well.
 The exception is that when you use :keyword:`cimport` to import an extension type, its
 type object is imported at run time and made available by the name under which
 you imported it. Using :keyword:`cimport` to import extension types is covered in more
-detail below.  
+detail below.
-If a ``.pxd`` file changes, any modules that :keyword:`cimport` from it may need to be 
+If a ``.pxd`` file changes, any modules that :keyword:`cimport` from it may need to be
 recompiled.  The ``Cython.Build.cythonize`` utility can take care of this for you.
@@ -137,7 +137,7 @@ include path (but not ``sys.path``), and if found, it is processed before
 processing the ``.pyx`` file.
-Using cimport to resolve naming conflicts 
+Using cimport to resolve naming conflicts
 ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
 The :keyword:`cimport` mechanism provides a clean and simple way to solve the
@@ -146,11 +146,11 @@ name. All you need to do is put the extern C declarations into a ``.pxd`` file
 for an imaginary module, and :keyword:`cimport` that module. You can then
 refer to the C functions by qualifying them with the name of the module.
 Here's an example:
 :file:`c_lunch.pxd`::
    cdef extern from "lunch.h":
-        void eject_tomato(float) 	
+        void eject_tomato(float)
 :file:`lunch.pyx`::
@@ -163,7 +163,7 @@ You don't need any :file:`c_lunch.pyx` file, because the only things defined
 in :file:`c_lunch.pxd` are extern C entities. There won't be any actual
 ``c_lunch`` module at run time, but that doesn't matter; the
 :file:`c_lunch.pxd` file has done its job of providing an additional namespace
-at compile time.  
+at compile time.
 Sharing C Functions
@@ -199,7 +199,7 @@ example:
    When a module exports a C function in this way, an object appears in the
    module dictionary under the function's name. However, you can't make use of
    this object from Python, nor can you use it from Cython using a normal import
-    statement; you have to use :keyword:`cimport`.  
+    statement; you have to use :keyword:`cimport`.
 Sharing Extension Types

--- a/docs/src/userguide/source_files_and_compilation.rst
+++ b/docs/src/userguide/source_files_and_compilation.rst
@@ -44,7 +44,7 @@ would be::
    setup(
        ext_modules = cythonize("example.pyx")
-    ) 
+    )
 To understand the :file:`setup.py` more fully look at the official
 :mod:`distutils` documentation. To compile the extension for use in the

--- a/docs/src/userguide/special_methods.rst
+++ b/docs/src/userguide/special_methods.rst
@@ -11,22 +11,22 @@ mention.
 .. Note: Everything said on this page applies only to extension types, defined
    with the :keyword:`cdef class` statement. It doesn't apply to classes defined with the
-    Python :keyword:`class` statement, where the normal Python rules apply.  
+    Python :keyword:`class` statement, where the normal Python rules apply.
 Declaration
 ------------
 Special methods of extension types must be declared with :keyword:`def`, not
 :keyword:`cdef`. This does not impact their performance--Python uses different
-calling conventions to invoke these special methods. 
+calling conventions to invoke these special methods.
 Docstrings
 -----------
 Currently, docstrings are not fully supported in some special methods of extension
 types. You can place a docstring in the source to serve as a comment, but it
-won't show up in the corresponding :attr:`__doc__` attribute at run time. (This 
+won't show up in the corresponding :attr:`__doc__` attribute at run time. (This
-seems to be is a Python limitation -- there's nowhere in the `PyTypeObject` 
+seems to be is a Python limitation -- there's nowhere in the `PyTypeObject`
-data structure to put such docstrings.) 
+data structure to put such docstrings.)
 Initialisation methods: :meth:`__cinit__` and :meth:`__init__`
 ---------------------------------------------------------------
@@ -36,7 +36,7 @@ The :meth:`__cinit__` method is where you should perform basic C-level
 initialisation of the object, including allocation of any C data structures
 that your object will own. You need to be careful what you do in the
 :meth:`__cinit__` method, because the object may not yet be fully valid Python
-object when it is called. Therefore, you should be careful invoking any Python 
+object when it is called. Therefore, you should be careful invoking any Python
 operations which might touch the object; in particular, its methods.
 By the time your :meth:`__cinit__` method is called, memory has been allocated for the
@@ -67,15 +67,15 @@ ignore extra arguments. Otherwise, any Python subclass which has an
 :meth:`__init__` with a different signature will have to override
 :meth:`__new__` [#]_ as well as :meth:`__init__`, which the writer of a Python
 class wouldn't expect to have to do.  Alternatively, as a convenience, if you declare
-your :meth:`__cinit__`` method to take no arguments (other than self) it 
+your :meth:`__cinit__`` method to take no arguments (other than self) it
 will simply ignore any extra arguments passed to the constructor without
-complaining about the signature mismatch. 
+complaining about the signature mismatch.
-.. Note: Older Cython files may use :meth:`__new__` rather than :meth:`__cinit__`. The two are synonyms. 
+.. Note: Older Cython files may use :meth:`__new__` rather than :meth:`__cinit__`. The two are synonyms.
-  The name change from :meth:`__new__` to :meth:`__cinit__` was to avoid 
+  The name change from :meth:`__new__` to :meth:`__cinit__` was to avoid
-  confusion with Python :meth:`__new__` (which is an entirely different 
+  confusion with Python :meth:`__new__` (which is an entirely different
-  concept) and eventually the use of :meth:`__new__` in Cython will be 
+  concept) and eventually the use of :meth:`__new__` in Cython will be
-  disallowed to pave the way for supporting Python-style :meth:`__new__`  
+  disallowed to pave the way for supporting Python-style :meth:`__new__`
 .. [#] http://docs.python.org/reference/datamodel.html#object.__new__
@@ -84,8 +84,8 @@ Finalization method: :meth:`__dealloc__`
 The counterpart to the :meth:`__cinit__` method is the :meth:`__dealloc__`
 method, which should perform the inverse of the :meth:`__cinit__` method. Any
-C data that you explicitly allocated (e.g. via malloc) in your 
+C data that you explicitly allocated (e.g. via malloc) in your
-:meth:`__cinit__` method should be freed in your :meth:`__dealloc__` method. 
+:meth:`__cinit__` method should be freed in your :meth:`__dealloc__` method.
 You need to be careful what you do in a :meth:`__dealloc__` method. By the time your
 :meth:`__dealloc__` method is called, the object may already have been partially
@@ -97,7 +97,7 @@ deallocating C data.
 You don't need to worry about deallocating Python attributes of your object,
 because that will be done for you by Cython after your :meth:`__dealloc__` method
-returns. 
+returns.
 When subclassing extension types, be aware that the :meth:`__dealloc__` method
 of the superclass will always be called, even if it is overridden.  This is in
@@ -116,8 +116,8 @@ operation, the same method of the second operand is called, with the operands
 in the same order.
 This means that you can't rely on the first parameter of these methods being
-"self" or being the right type, and you should test the types of both operands 
+"self" or being the right type, and you should test the types of both operands
-before deciding what to do. If you can't handle the combination of types you've 
+before deciding what to do. If you can't handle the combination of types you've
 been given, you should return `NotImplemented`.
 This also applies to the in-place arithmetic method :meth:`__ipow__`. It doesn't apply
@@ -131,17 +131,17 @@ There are no separate methods for the individual rich comparison operations
 (:meth:`__eq__`, :meth:`__le__`, etc.) Instead there is a single method
 :meth:`__richcmp__` which takes an integer indicating which operation is to be
 performed, as follows:
 +-----+-----+
-|  <  |  0  |	
+|  <  |  0  |
 +-----+-----+
 | ==  |  2  |
 +-----+-----+
 |  >  |  4  |
 +-----+-----+
-| <=  |  1  |	
+| <=  |  1  |
 +-----+-----+
-| !=  |  3  |	
+| !=  |  3  |
 +-----+-----+
 | >=  |  5  |
 +-----+-----+
@@ -164,7 +164,7 @@ with no type specified in the table are generic Python objects.
 You don't have to declare your method as taking these parameter types. If you
 declare different types, conversions will be performed as necessary.
 General
 ^^^^^^^
@@ -335,7 +335,7 @@ Buffer interface [:PEP:`3118`] (no Python equivalents - see note 1)
 +-----------------------+---------------------------------------+-------------+-----------------------------------------------------+
 | Name                  | Parameters                            | Return type |         Description                                 |
 +=======================+=======================================+=============+=====================================================+
-| __getbuffer__         | self, Py_buffer `*view`, int flags    |             |                                                     | 
+| __getbuffer__         | self, Py_buffer `*view`, int flags    |             |                                                     |
 +-----------------------+---------------------------------------+-------------+-----------------------------------------------------+
 | __releasebuffer__     | self, Py_buffer `*view`               |             |                                                     |
 +-----------------------+---------------------------------------+-------------+-----------------------------------------------------+
@@ -346,7 +346,7 @@ Buffer interface [legacy] (no Python equivalents - see note 1)
 +-----------------------+---------------------------------------+-------------+-----------------------------------------------------+
 | Name                  | Parameters                            | Return type |         Description                                 |
 +=======================+=======================================+=============+=====================================================+
-| __getreadbuffer__     | self, Py_ssize_t i, void `**p`        |             |                                                     | 
+| __getreadbuffer__     | self, Py_ssize_t i, void `**p`        |             |                                                     |
 +-----------------------+---------------------------------------+-------------+-----------------------------------------------------+
 | __getwritebuffer__    | self, Py_ssize_t i, void `**p`        |             |                                                     |
 +-----------------------+---------------------------------------+-------------+-----------------------------------------------------+

--- a/pyximport/README
+++ b/pyximport/README
- == Pyximport == 
+ == Pyximport ==
 Download: pyx-import-1.0.tar.gz
 <http://www.prescod.net/pyximport/pyximport-1.0.tar.gz>
@@ -31,7 +31,7 @@ python -c "import foo"
 See help(pyximport.install) to learn its options for controlling the
 default behavior of "import" and "reload".
- == Dependency Handling == 
+ == Dependency Handling ==
 In Pyximport 1.1 it is possible to declare that your module depends on
 multiple files, (likely ".h" and ".pxd" files). If your Pyrex module is
@@ -46,7 +46,7 @@ modification time of your ".pyx" source file. Future versions may do
 something more sophisticated like informing distutils of the
 dependencies directly.
- == Limitations == 
+ == Limitations ==
 Pyximport does not give you any control over how your Pyrex file is
 compiled. Usually the defaults are fine. You might run into problems if
@@ -59,7 +59,7 @@ something went wrong and why. And if nothing went wrong it will give you
 the warm fuzzy that pyximport really did rebuild your module as it was
 supposed to.
- == For further thought and discussion == 
+ == For further thought and discussion ==
 "setup.py install" does not modify sitecustomize.py for you. Should it?
 Modifying Python's "standard interpreter" behaviour may be more than

--- a/pyximport/pyximport.py
+++ b/pyximport/pyximport.py
 """
-Import hooks; when installed with the install() function, these hooks 
+Import hooks; when installed with the install() function, these hooks
 allow importing .pyx files as if they were Python modules.
 If you want the hook installed every time you run Python
 you can add it to your Python version by adding these lines to
-sitecustomize.py (which you can create from scratch in site-packages 
+sitecustomize.py (which you can create from scratch in site-packages
 if it doesn't exist there or somewhere else on your python path)::
    import pyximport
@@ -79,8 +79,8 @@ def _info(message, *args):
 # Performance problem: for every PYX file that is imported, we will
-# invoke the whole distutils infrastructure even if the module is 
+# invoke the whole distutils infrastructure even if the module is
-# already built. It might be more efficient to only do it when the 
+# already built. It might be more efficient to only do it when the
 # mod time of the .pyx is newer than the mod time of the .so but
 # the question is how to get distutils to tell me the name of the .so
 # before it builds it. Maybe it is easy...but maybe the peformance
@@ -94,7 +94,7 @@ def get_distutils_extension(modname, pyxfilename, language_level=None):
 #        import hashlib
 #    except ImportError:
 #        import md5 as hashlib
-#    extra = "_" + hashlib.md5(open(pyxfilename).read()).hexdigest()  
+#    extra = "_" + hashlib.md5(open(pyxfilename).read()).hexdigest()
 #    modname = modname + extra
    extension_mod,setup_args = handle_special_build(modname, pyxfilename)
    if not extension_mod:
@@ -113,7 +113,7 @@ def handle_special_build(modname, pyxfilename):
    special_build = os.path.splitext(pyxfilename)[0] + PYXBLD_EXT
    ext = None
    setup_args={}
-    if os.path.exists(special_build): 
+    if os.path.exists(special_build):
        # globls = {}
        # locs = {}
        # execfile(special_build, globls, locs)
@@ -126,11 +126,11 @@ def handle_special_build(modname, pyxfilename):
        make_setup_args = getattr(mod, 'make_setup_args',None)
        if make_setup_args:
            setup_args = make_setup_args()
-            assert isinstance(setup_args,dict), ("make_setup_args in %s did not return a dict" 
+            assert isinstance(setup_args,dict), ("make_setup_args in %s did not return a dict"
                                         % special_build)
-        assert set or setup_args, ("neither make_ext nor make_setup_args %s" 
+        assert set or setup_args, ("neither make_ext nor make_setup_args %s"
                                         % special_build)
-        ext.sources = [os.path.join(os.path.dirname(special_build), source) 
+        ext.sources = [os.path.join(os.path.dirname(special_build), source)
                       for source in ext.sources]
    return ext, setup_args
@@ -142,7 +142,7 @@ def handle_dependencies(pyxfilename):
    # by default let distutils decide whether to rebuild on its own
    # (it has a better idea of what the output file will be)
-    # but we know more about dependencies so force a rebuild if 
+    # but we know more about dependencies so force a rebuild if
    # some of the dependencies are newer than the pyxfile.
    if os.path.exists(dependfile):
        depends = open(dependfile).readlines()
@@ -153,7 +153,7 @@ def handle_dependencies(pyxfilename):
        files = [dependfile]
        for depend in depends:
            fullpath = os.path.join(os.path.dirname(dependfile),
-                                    depend) 
+                                    depend)
            files.extend(glob.glob(fullpath))
        # only for unit testing to see we did the right thing
@@ -191,7 +191,7 @@ def build_module(name, pyxfilename, pyxbuild_dir=None, inplace=False, language_l
                                  inplace=inplace,
                                  reload_support=pyxargs.reload_support)
    assert os.path.exists(so_path), "Cannot find: %s" % so_path
    junkpath = os.path.join(os.path.dirname(so_path), name+"_*") #very dangerous with --inplace ? yes, indeed, trying to eat my files ;)
    junkstuff = glob.glob(junkpath)
    for path in junkstuff:
@@ -249,7 +249,7 @@ class PyxImporter(object):
    def find_module(self, fullname, package_path=None):
        if fullname in sys.modules  and  not pyxargs.reload_support:
-            return None  # only here when reload() 
+            return None  # only here when reload()
        try:
            fp, pathname, (ext,mode,ty) = imp.find_module(fullname,package_path)
            if fp: fp.close()  # Python should offer a Default-Loader to avoid this double find/open!
@@ -520,7 +520,7 @@ def install(pyximport=True, pyimport=False, build_dir=None, build_in_temp=True,
        setup_args = {}
    if not build_dir:
        build_dir = os.path.join(os.path.expanduser('~'), '.pyxbld')
    global pyxargs
    pyxargs = PyxArgs()  #$pycheck_no
    pyxargs.build_dir = build_dir

--- a/pyximport/test/test_pyximport.py
+++ b/pyximport/test/test_pyximport.py
@@ -46,7 +46,7 @@ def test():
    build_file.write("""
 from distutils.extension import Extension
 def make_ext(name, filename):
-    return Extension(name=name, sources=[filename]) 
+    return Extension(name=name, sources=[filename])
 """)
    build_file.close()