/* * ***** BEGIN GPL LICENSE BLOCK ***** * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License * as published by the Free Software Foundation; either version 2 * of the License, or (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software Foundation, * Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. * * Contributor(s): Willian P. Germano, Joseph Gilbert, Ken Hughes, Alex Fraser, Campbell Barton * * ***** END GPL LICENSE BLOCK ***** */ /** \file blender/python/mathutils/mathutils_Vector.c * \ingroup pymathutils */ #include #include "mathutils.h" #include "BLI_math.h" #include "BLI_utildefines.h" #ifndef MATH_STANDALONE # include "BLI_dynstr.h" #endif #define MAX_DIMENSIONS 4 /* Swizzle axes get packed into a single value that is used as a closure. Each * axis uses SWIZZLE_BITS_PER_AXIS bits. The first bit (SWIZZLE_VALID_AXIS) is * used as a sentinel: if it is unset, the axis is not valid. */ #define SWIZZLE_BITS_PER_AXIS 3 #define SWIZZLE_VALID_AXIS 0x4 #define SWIZZLE_AXIS 0x3 static PyObject *Vector_copy(VectorObject *self); static PyObject *Vector_deepcopy(VectorObject *self, PyObject *args); static PyObject *Vector_to_tuple_ext(VectorObject *self, int ndigits); static int row_vector_multiplication(float rvec[MAX_DIMENSIONS], VectorObject *vec, MatrixObject *mat); /* Supports 2D, 3D, and 4D vector objects both int and float values * accepted. Mixed float and int values accepted. Ints are parsed to float */ static PyObject *Vector_new(PyTypeObject *type, PyObject *args, PyObject *kwds) { float *vec = NULL; int size = 3; /* default to a 3D vector */ if (kwds && PyDict_Size(kwds)) { PyErr_SetString(PyExc_TypeError, "Vector(): " "takes no keyword args"); return NULL; } switch (PyTuple_GET_SIZE(args)) { case 0: vec = PyMem_Malloc(size * sizeof(float)); if (vec == NULL) { PyErr_SetString(PyExc_MemoryError, "Vector(): " "problem allocating pointer space"); return NULL; } fill_vn_fl(vec, size, 0.0f); break; case 1: if ((size = mathutils_array_parse_alloc(&vec, 2, PyTuple_GET_ITEM(args, 0), "mathutils.Vector()")) == -1) { return NULL; } break; default: PyErr_SetString(PyExc_TypeError, "mathutils.Vector(): " "more than a single arg given"); return NULL; } return Vector_CreatePyObject_alloc(vec, size, type); } static PyObject *vec__apply_to_copy(PyNoArgsFunction vec_func, VectorObject *self) { PyObject *ret = Vector_copy(self); PyObject *ret_dummy = vec_func(ret); if (ret_dummy) { Py_DECREF(ret_dummy); return (PyObject *)ret; } else { /* error */ Py_DECREF(ret); return NULL; } } /*-----------------------CLASS-METHODS----------------------------*/ PyDoc_STRVAR(C_Vector_Fill_doc, ".. classmethod:: Fill(size, fill=0.0)\n" "\n" " Create a vector of length size with all values set to fill.\n" "\n" " :arg size: The length of the vector to be created.\n" " :type size: int\n" " :arg fill: The value used to fill the vector.\n" " :type fill: float\n" ); static PyObject *C_Vector_Fill(PyObject *cls, PyObject *args) { float *vec; int size; float fill = 0.0f; if (!PyArg_ParseTuple(args, "i|f:Vector.Fill", &size, &fill)) { return NULL; } if (size < 2) { PyErr_SetString(PyExc_RuntimeError, "Vector(): invalid size"); return NULL; } vec = PyMem_Malloc(size * sizeof(float)); if (vec == NULL) { PyErr_SetString(PyExc_MemoryError, "Vector.Fill(): " "problem allocating pointer space"); return NULL; } fill_vn_fl(vec, size, fill); return Vector_CreatePyObject_alloc(vec, size, (PyTypeObject *)cls); } PyDoc_STRVAR(C_Vector_Range_doc, ".. classmethod:: Range(start=0, stop, step=1)\n" "\n" " Create a filled with a range of values.\n" "\n" " :arg start: The start of the range used to fill the vector.\n" " :type start: int\n" " :arg stop: The end of the range used to fill the vector.\n" " :type stop: int\n" " :arg step: The step between successive values in the vector.\n" " :type step: int\n" ); static PyObject *C_Vector_Range(PyObject *cls, PyObject *args) { float *vec; int stop, size; int start = 0; int step = 1; if (!PyArg_ParseTuple(args, "i|ii:Vector.Range", &start, &stop, &step)) { return NULL; } switch (PyTuple_GET_SIZE(args)) { case 1: size = start; start = 0; break; case 2: if (start >= stop) { PyErr_SetString(PyExc_RuntimeError, "Start value is larger " "than the stop value"); return NULL; } size = stop - start; break; default: if (start >= stop) { PyErr_SetString(PyExc_RuntimeError, "Start value is larger " "than the stop value"); return NULL; } size = (stop - start); if ((size % step) != 0) size += step; size /= step; break; } if (size < 2) { PyErr_SetString(PyExc_RuntimeError, "Vector(): invalid size"); return NULL; } vec = PyMem_Malloc(size * sizeof(float)); if (vec == NULL) { PyErr_SetString(PyExc_MemoryError, "Vector.Range(): " "problem allocating pointer space"); return NULL; } range_vn_fl(vec, size, (float)start, (float)step); return Vector_CreatePyObject_alloc(vec, size, (PyTypeObject *)cls); } PyDoc_STRVAR(C_Vector_Linspace_doc, ".. classmethod:: Linspace(start, stop, size)\n" "\n" " Create a vector of the specified size which is filled with linearly spaced values between start and stop values.\n" "\n" " :arg start: The start of the range used to fill the vector.\n" " :type start: int\n" " :arg stop: The end of the range used to fill the vector.\n" " :type stop: int\n" " :arg size: The size of the vector to be created.\n" " :type size: int\n" ); static PyObject *C_Vector_Linspace(PyObject *cls, PyObject *args) { float *vec; int size; float start, end, step; if (!PyArg_ParseTuple(args, "ffi:Vector.Linspace", &start, &end, &size)) { return NULL; } if (size < 2) { PyErr_SetString(PyExc_RuntimeError, "Vector.Linspace(): invalid size"); return NULL; } step = (end - start) / (float)(size - 1); vec = PyMem_Malloc(size * sizeof(float)); if (vec == NULL) { PyErr_SetString(PyExc_MemoryError, "Vector.Linspace(): " "problem allocating pointer space"); return NULL; } range_vn_fl(vec, size, start, step); return Vector_CreatePyObject_alloc(vec, size, (PyTypeObject *)cls); } PyDoc_STRVAR(C_Vector_Repeat_doc, ".. classmethod:: Repeat(vector, size)\n" "\n" " Create a vector by repeating the values in vector until the required size is reached.\n" "\n" " :arg tuple: The vector to draw values from.\n" " :type tuple: :class:`mathutils.Vector`\n" " :arg size: The size of the vector to be created.\n" " :type size: int\n" ); static PyObject *C_Vector_Repeat(PyObject *cls, PyObject *args) { float *vec; float *iter_vec = NULL; int i, size, value_size; PyObject *value; if (!PyArg_ParseTuple(args, "Oi:Vector.Repeat", &value, &size)) { return NULL; } if (size < 2) { PyErr_SetString(PyExc_RuntimeError, "Vector.Repeat(): invalid size"); return NULL; } if ((value_size = mathutils_array_parse_alloc(&iter_vec, 2, value, "Vector.Repeat(vector, size), invalid 'vector' arg")) == -1) { return NULL; } if (iter_vec == NULL) { PyErr_SetString(PyExc_MemoryError, "Vector.Repeat(): " "problem allocating pointer space"); return NULL; } vec = PyMem_Malloc(size * sizeof(float)); if (vec == NULL) { PyMem_Free(iter_vec); PyErr_SetString(PyExc_MemoryError, "Vector.Repeat(): " "problem allocating pointer space"); return NULL; } i = 0; while (i < size) { vec[i] = iter_vec[i % value_size]; i++; } PyMem_Free(iter_vec); return Vector_CreatePyObject_alloc(vec, size, (PyTypeObject *)cls); } /*-----------------------------METHODS---------------------------- */ PyDoc_STRVAR(Vector_zero_doc, ".. method:: zero()\n" "\n" " Set all values to zero.\n" ); static PyObject *Vector_zero(VectorObject *self) { fill_vn_fl(self->vec, self->size, 0.0f); if (BaseMath_WriteCallback(self) == -1) return NULL; Py_RETURN_NONE; } PyDoc_STRVAR(Vector_normalize_doc, ".. method:: normalize()\n" "\n" " Normalize the vector, making the length of the vector always 1.0.\n" "\n" " .. warning:: Normalizing a vector where all values are zero has no effect.\n" "\n" " .. note:: Normalize works for vectors of all sizes,\n" " however 4D Vectors w axis is left untouched.\n" ); static PyObject *Vector_normalize(VectorObject *self) { int size = (self->size == 4 ? 3 : self->size); if (BaseMath_ReadCallback(self) == -1) return NULL; normalize_vn(self->vec, size); (void)BaseMath_WriteCallback(self); Py_RETURN_NONE; } PyDoc_STRVAR(Vector_normalized_doc, ".. method:: normalized()\n" "\n" " Return a new, normalized vector.\n" "\n" " :return: a normalized copy of the vector\n" " :rtype: :class:`Vector`\n" ); static PyObject *Vector_normalized(VectorObject *self) { return vec__apply_to_copy((PyNoArgsFunction)Vector_normalize, self); } PyDoc_STRVAR(Vector_resize_doc, ".. method:: resize(size=3)\n" "\n" " Resize the vector to have size number of elements.\n" ); static PyObject *Vector_resize(VectorObject *self, PyObject *value) { int size; if (self->wrapped == Py_WRAP) { PyErr_SetString(PyExc_TypeError, "Vector.resize(): " "cannot resize wrapped data - only python vectors"); return NULL; } if (self->cb_user) { PyErr_SetString(PyExc_TypeError, "Vector.resize(): " "cannot resize a vector that has an owner"); return NULL; } if ((size = PyLong_AsLong(value)) == -1) { PyErr_SetString(PyExc_TypeError, "Vector.resize(size): " "expected size argument to be an integer"); return NULL; } if (size < 2) { PyErr_SetString(PyExc_RuntimeError, "Vector.resize(): invalid size"); return NULL; } self->vec = PyMem_Realloc(self->vec, (size * sizeof(float))); if (self->vec == NULL) { PyErr_SetString(PyExc_MemoryError, "Vector.resize(): " "problem allocating pointer space"); return NULL; } /* If the vector has increased in length, set all new elements to 0.0f */ if (size > self->size) { fill_vn_fl(self->vec + self->size, size - self->size, 0.0f); } self->size = size; Py_RETURN_NONE; } PyDoc_STRVAR(Vector_resized_doc, ".. method:: resized(size=3)\n" "\n" " Return a resized copy of the vector with size number of elements.\n" "\n" " :return: a new vector\n" " :rtype: :class:`Vector`\n" ); static PyObject *Vector_resized(VectorObject *self, PyObject *value) { int size; float *vec; if ((size = PyLong_AsLong(value)) == -1) { return NULL; } if (size < 2) { PyErr_SetString(PyExc_RuntimeError, "Vector.resized(): invalid size"); return NULL; } vec = PyMem_Malloc(size * sizeof(float)); if (vec == NULL) { PyErr_SetString(PyExc_MemoryError, "Vector.resized(): " "problem allocating pointer space"); return NULL; } fill_vn_fl(vec, size, 0.0f); memcpy(vec, self->vec, self->size * sizeof(float)); return Vector_CreatePyObject_alloc(vec, size, NULL); } PyDoc_STRVAR(Vector_resize_2d_doc, ".. method:: resize_2d()\n" "\n" " Resize the vector to 2D (x, y).\n" ); static PyObject *Vector_resize_2d(VectorObject *self) { if (self->wrapped == Py_WRAP) { PyErr_SetString(PyExc_TypeError, "Vector.resize_2d(): " "cannot resize wrapped data - only python vectors"); return NULL; } if (self->cb_user) { PyErr_SetString(PyExc_TypeError, "Vector.resize_2d(): " "cannot resize a vector that has an owner"); return NULL; } self->vec = PyMem_Realloc(self->vec, (sizeof(float) * 2)); if (self->vec == NULL) { PyErr_SetString(PyExc_MemoryError, "Vector.resize_2d(): " "problem allocating pointer space"); return NULL; } self->size = 2; Py_RETURN_NONE; } PyDoc_STRVAR(Vector_resize_3d_doc, ".. method:: resize_3d()\n" "\n" " Resize the vector to 3D (x, y, z).\n" ); static PyObject *Vector_resize_3d(VectorObject *self) { if (self->wrapped == Py_WRAP) { PyErr_SetString(PyExc_TypeError, "Vector.resize_3d(): " "cannot resize wrapped data - only python vectors"); return NULL; } if (self->cb_user) { PyErr_SetString(PyExc_TypeError, "Vector.resize_3d(): " "cannot resize a vector that has an owner"); return NULL; } self->vec = PyMem_Realloc(self->vec, (sizeof(float) * 3)); if (self->vec == NULL) { PyErr_SetString(PyExc_MemoryError, "Vector.resize_3d(): " "problem allocating pointer space"); return NULL; } if (self->size == 2) self->vec[2] = 0.0f; self->size = 3; Py_RETURN_NONE; } PyDoc_STRVAR(Vector_resize_4d_doc, ".. method:: resize_4d()\n" "\n" " Resize the vector to 4D (x, y, z, w).\n" ); static PyObject *Vector_resize_4d(VectorObject *self) { if (self->wrapped == Py_WRAP) { PyErr_SetString(PyExc_TypeError, "Vector.resize_4d(): " "cannot resize wrapped data - only python vectors"); return NULL; } if (self->cb_user) { PyErr_SetString(PyExc_TypeError, "Vector.resize_4d(): " "cannot resize a vector that has an owner"); return NULL; } self->vec = PyMem_Realloc(self->vec, (sizeof(float) * 4)); if (self->vec == NULL) { PyErr_SetString(PyExc_MemoryError, "Vector.resize_4d(): " "problem allocating pointer space"); return NULL; } if (self->size == 2) { self->vec[2] = 0.0f; self->vec[3] = 1.0f; } else if (self->size == 3) { self->vec[3] = 1.0f; } self->size = 4; Py_RETURN_NONE; } PyDoc_STRVAR(Vector_to_2d_doc, ".. method:: to_2d()\n" "\n" " Return a 2d copy of the vector.\n" "\n" " :return: a new vector\n" " :rtype: :class:`Vector`\n" ); static PyObject *Vector_to_2d(VectorObject *self) { if (BaseMath_ReadCallback(self) == -1) return NULL; return Vector_CreatePyObject(self->vec, 2, Py_NEW, Py_TYPE(self)); } PyDoc_STRVAR(Vector_to_3d_doc, ".. method:: to_3d()\n" "\n" " Return a 3d copy of the vector.\n" "\n" " :return: a new vector\n" " :rtype: :class:`Vector`\n" ); static PyObject *Vector_to_3d(VectorObject *self) { float tvec[3] = {0.0f}; if (BaseMath_ReadCallback(self) == -1) return NULL; memcpy(tvec, self->vec, sizeof(float) * MIN2(self->size, 3)); return Vector_CreatePyObject(tvec, 3, Py_NEW, Py_TYPE(self)); } PyDoc_STRVAR(Vector_to_4d_doc, ".. method:: to_4d()\n" "\n" " Return a 4d copy of the vector.\n" "\n" " :return: a new vector\n" " :rtype: :class:`Vector`\n" ); static PyObject *Vector_to_4d(VectorObject *self) { float tvec[4] = {0.0f, 0.0f, 0.0f, 1.0f}; if (BaseMath_ReadCallback(self) == -1) return NULL; memcpy(tvec, self->vec, sizeof(float) * MIN2(self->size, 4)); return Vector_CreatePyObject(tvec, 4, Py_NEW, Py_TYPE(self)); } PyDoc_STRVAR(Vector_to_tuple_doc, ".. method:: to_tuple(precision=-1)\n" "\n" " Return this vector as a tuple with.\n" "\n" " :arg precision: The number to round the value to in [-1, 21].\n" " :type precision: int\n" " :return: the values of the vector rounded by *precision*\n" " :rtype: tuple\n" ); /* note: BaseMath_ReadCallback must be called beforehand */ static PyObject *Vector_to_tuple_ext(VectorObject *self, int ndigits) { PyObject *ret; int i; ret = PyTuple_New(self->size); if (ndigits >= 0) { for (i = 0; i < self->size; i++) { PyTuple_SET_ITEM(ret, i, PyFloat_FromDouble(double_round((double)self->vec[i], ndigits))); } } else { for (i = 0; i < self->size; i++) { PyTuple_SET_ITEM(ret, i, PyFloat_FromDouble(self->vec[i])); } } return ret; } static PyObject *Vector_to_tuple(VectorObject *self, PyObject *args) { int ndigits = 0; if (!PyArg_ParseTuple(args, "|i:to_tuple", &ndigits)) return NULL; if (ndigits > 22 || ndigits < 0) { PyErr_SetString(PyExc_ValueError, "Vector.to_tuple(ndigits): " "ndigits must be between 0 and 21"); return NULL; } if (PyTuple_GET_SIZE(args) == 0) ndigits = -1; if (BaseMath_ReadCallback(self) == -1) return NULL; return Vector_to_tuple_ext(self, ndigits); } PyDoc_STRVAR(Vector_to_track_quat_doc, ".. method:: to_track_quat(track, up)\n" "\n" " Return a quaternion rotation from the vector and the track and up axis.\n" "\n" " :arg track: Track axis in ['X', 'Y', 'Z', '-X', '-Y', '-Z'].\n" " :type track: string\n" " :arg up: Up axis in ['X', 'Y', 'Z'].\n" " :type up: string\n" " :return: rotation from the vector and the track and up axis.\n" " :rtype: :class:`Quaternion`\n" ); static PyObject *Vector_to_track_quat(VectorObject *self, PyObject *args) { float vec[3], quat[4]; const char *strack, *sup; short track = 2, up = 1; if (!PyArg_ParseTuple(args, "|ss:to_track_quat", &strack, &sup)) return NULL; if (self->size != 3) { PyErr_SetString(PyExc_TypeError, "Vector.to_track_quat(): " "only for 3D vectors"); return NULL; } if (BaseMath_ReadCallback(self) == -1) return NULL; if (strack) { const char *axis_err_msg = "only X, -X, Y, -Y, Z or -Z for track axis"; if (strlen(strack) == 2) { if (strack[0] == '-') { switch (strack[1]) { case 'X': track = 3; break; case 'Y': track = 4; break; case 'Z': track = 5; break; default: PyErr_SetString(PyExc_ValueError, axis_err_msg); return NULL; } } else { PyErr_SetString(PyExc_ValueError, axis_err_msg); return NULL; } } else if (strlen(strack) == 1) { switch (strack[0]) { case '-': case 'X': track = 0; break; case 'Y': track = 1; break; case 'Z': track = 2; break; default: PyErr_SetString(PyExc_ValueError, axis_err_msg); return NULL; } } else { PyErr_SetString(PyExc_ValueError, axis_err_msg); return NULL; } } if (sup) { const char *axis_err_msg = "only X, Y or Z for up axis"; if (strlen(sup) == 1) { switch (*sup) { case 'X': up = 0; break; case 'Y': up = 1; break; case 'Z': up = 2; break; default: PyErr_SetString(PyExc_ValueError, axis_err_msg); return NULL; } } else { PyErr_SetString(PyExc_ValueError, axis_err_msg); return NULL; } } if (track == up) { PyErr_SetString(PyExc_ValueError, "Can't have the same axis for track and up"); return NULL; } /* * flip vector around, since vectoquat expect a vector from target to tracking object * and the python function expects the inverse (a vector to the target). */ negate_v3_v3(vec, self->vec); vec_to_quat(quat, vec, track, up); return Quaternion_CreatePyObject(quat, Py_NEW, NULL); } PyDoc_STRVAR(Vector_orthogonal_doc, ".. method:: orthogonal()\n" "\n" " Return a perpendicular vector.\n" "\n" " :return: a new vector 90 degrees from this vector.\n" " :rtype: :class:`Vector`\n" "\n" " .. note:: the axis is undefined, only use when any orthogonal vector is acceptable.\n" ); static PyObject *Vector_orthogonal(VectorObject *self) { float vec[3]; if (self->size > 3) { PyErr_SetString(PyExc_TypeError, "Vector.orthogonal(): " "Vector must be 3D or 2D"); return NULL; } if (BaseMath_ReadCallback(self) == -1) return NULL; if (self->size == 3) ortho_v3_v3(vec, self->vec); else ortho_v2_v2(vec, self->vec); return Vector_CreatePyObject(vec, self->size, Py_NEW, Py_TYPE(self)); } /* * Vector.reflect(mirror): return a reflected vector on the mirror normal * vec - ((2 * DotVecs(vec, mirror)) * mirror) */ PyDoc_STRVAR(Vector_reflect_doc, ".. method:: reflect(mirror)\n" "\n" " Return the reflection vector from the *mirror* argument.\n" "\n" " :arg mirror: This vector could be a normal from the reflecting surface.\n" " :type mirror: :class:`Vector`\n" " :return: The reflected vector matching the size of this vector.\n" " :rtype: :class:`Vector`\n" ); static PyObject *Vector_reflect(VectorObject *self, PyObject *value) { int value_size; float mirror[3], vec[3]; float reflect[3] = {0.0f}; float tvec[MAX_DIMENSIONS]; if (BaseMath_ReadCallback(self) == -1) return NULL; if ((value_size = mathutils_array_parse(tvec, 2, 4, value, "Vector.reflect(other), invalid 'other' arg")) == -1) return NULL; if (self->size < 2 || self->size > 4) { PyErr_SetString(PyExc_ValueError, "Vector must be 2D, 3D or 4D"); return NULL; } mirror[0] = tvec[0]; mirror[1] = tvec[1]; mirror[2] = (value_size > 2) ? tvec[2] : 0.0f; vec[0] = self->vec[0]; vec[1] = self->vec[1]; vec[2] = (value_size > 2) ? self->vec[2] : 0.0f; normalize_v3(mirror); reflect_v3_v3v3(reflect, vec, mirror); return Vector_CreatePyObject(reflect, self->size, Py_NEW, Py_TYPE(self)); } PyDoc_STRVAR(Vector_cross_doc, ".. method:: cross(other)\n" "\n" " Return the cross product of this vector and another.\n" "\n" " :arg other: The other vector to perform the cross product with.\n" " :type other: :class:`Vector`\n" " :return: The cross product.\n" " :rtype: :class:`Vector` or float when 2D vectors are used\n" "\n" " .. note:: both vectors must be 2D or 3D\n" ); static PyObject *Vector_cross(VectorObject *self, PyObject *value) { PyObject *ret; float tvec[3]; if (BaseMath_ReadCallback(self) == -1) return NULL; if (self->size > 3) { PyErr_SetString(PyExc_ValueError, "Vector must be 2D or 3D"); return NULL; } if (mathutils_array_parse(tvec, self->size, self->size, value, "Vector.cross(other), invalid 'other' arg") == -1) return NULL; if (self->size == 3) { ret = Vector_CreatePyObject(NULL, 3, Py_NEW, Py_TYPE(self)); cross_v3_v3v3(((VectorObject *)ret)->vec, self->vec, tvec); } else { /* size == 2 */ ret = PyFloat_FromDouble(cross_v2v2(self->vec, tvec)); } return ret; } PyDoc_STRVAR(Vector_dot_doc, ".. method:: dot(other)\n" "\n" " Return the dot product of this vector and another.\n" "\n" " :arg other: The other vector to perform the dot product with.\n" " :type other: :class:`Vector`\n" " :return: The dot product.\n" " :rtype: :class:`Vector`\n" ); static PyObject *Vector_dot(VectorObject *self, PyObject *value) { float *tvec; PyObject *ret; if (BaseMath_ReadCallback(self) == -1) return NULL; if (mathutils_array_parse_alloc(&tvec, self->size, value, "Vector.dot(other), invalid 'other' arg") == -1) { return NULL; } ret = PyFloat_FromDouble(dot_vn_vn(self->vec, tvec, self->size)); PyMem_Free(tvec); return ret; } PyDoc_STRVAR(Vector_angle_doc, ".. function:: angle(other, fallback=None)\n" "\n" " Return the angle between two vectors.\n" "\n" " :arg other: another vector to compare the angle with\n" " :type other: :class:`Vector`\n" " :arg fallback: return this value when the angle can't be calculated\n" " (zero length vector)\n" " :type fallback: any\n" " :return: angle in radians or fallback when given\n" " :rtype: float\n" "\n" " .. note:: Zero length vectors raise an :exc:`ValueError`.\n" ); static PyObject *Vector_angle(VectorObject *self, PyObject *args) { const int size = MIN2(self->size, 3); /* 4D angle makes no sense */ float tvec[MAX_DIMENSIONS]; PyObject *value; double dot = 0.0f, dot_self = 0.0f, dot_other = 0.0f; int x; PyObject *fallback = NULL; if (!PyArg_ParseTuple(args, "O|O:angle", &value, &fallback)) return NULL; if (BaseMath_ReadCallback(self) == -1) return NULL; /* don't use clamped size, rule of thumb is vector sizes must match, * even though n this case 'w' is ignored */ if (mathutils_array_parse(tvec, self->size, self->size, value, "Vector.angle(other), invalid 'other' arg") == -1) return NULL; if (self->size > 4) { PyErr_SetString(PyExc_ValueError, "Vector must be 2D, 3D or 4D"); return NULL; } for (x = 0; x < size; x++) { dot_self += (double)self->vec[x] * (double)self->vec[x]; dot_other += (double)tvec[x] * (double)tvec[x]; dot += (double)self->vec[x] * (double)tvec[x]; } if (!dot_self || !dot_other) { /* avoid exception */ if (fallback) { Py_INCREF(fallback); return fallback; } else { PyErr_SetString(PyExc_ValueError, "Vector.angle(other): " "zero length vectors have no valid angle"); return NULL; } } return PyFloat_FromDouble(saacos(dot / (sqrt(dot_self) * sqrt(dot_other)))); } PyDoc_STRVAR(Vector_angle_signed_doc, ".. function:: angle_signed(other, fallback)\n" "\n" " Return the signed angle between two 2D vectors (clockwise is positive).\n" "\n" " :arg other: another vector to compare the angle with\n" " :type other: :class:`Vector`\n" " :arg fallback: return this value when the angle can't be calculated\n" " (zero length vector)\n" " :type fallback: any\n" " :return: angle in radians or fallback when given\n" " :rtype: float\n" "\n" " .. note:: Zero length vectors raise an :exc:`ValueError`.\n" ); static PyObject *Vector_angle_signed(VectorObject *self, PyObject *args) { float tvec[2]; PyObject *value; PyObject *fallback = NULL; if (!PyArg_ParseTuple(args, "O|O:angle_signed", &value, &fallback)) return NULL; if (BaseMath_ReadCallback(self) == -1) return NULL; if (mathutils_array_parse(tvec, 2, 2, value, "Vector.angle_signed(other), invalid 'other' arg") == -1) return NULL; if (self->size != 2) { PyErr_SetString(PyExc_ValueError, "Vector must be 2D"); return NULL; } if (is_zero_v2(self->vec) || is_zero_v2(tvec)) { /* avoid exception */ if (fallback) { Py_INCREF(fallback); return fallback; } else { PyErr_SetString(PyExc_ValueError, "Vector.angle_signed(other): " "zero length vectors have no valid angle"); return NULL; } } return PyFloat_FromDouble(angle_signed_v2v2(self->vec, tvec)); } PyDoc_STRVAR(Vector_rotation_difference_doc, ".. function:: rotation_difference(other)\n" "\n" " Returns a quaternion representing the rotational difference between this\n" " vector and another.\n" "\n" " :arg other: second vector.\n" " :type other: :class:`Vector`\n" " :return: the rotational difference between the two vectors.\n" " :rtype: :class:`Quaternion`\n" "\n" " .. note:: 2D vectors raise an :exc:`AttributeError`.\n" ); static PyObject *Vector_rotation_difference(VectorObject *self, PyObject *value) { float quat[4], vec_a[3], vec_b[3]; if (self->size < 3 || self->size > 4) { PyErr_SetString(PyExc_ValueError, "vec.difference(value): " "expects both vectors to be size 3 or 4"); return NULL; } if (BaseMath_ReadCallback(self) == -1) return NULL; if (mathutils_array_parse(vec_b, 3, MAX_DIMENSIONS, value, "Vector.difference(other), invalid 'other' arg") == -1) return NULL; normalize_v3_v3(vec_a, self->vec); normalize_v3(vec_b); rotation_between_vecs_to_quat(quat, vec_a, vec_b); return Quaternion_CreatePyObject(quat, Py_NEW, NULL); } PyDoc_STRVAR(Vector_project_doc, ".. function:: project(other)\n" "\n" " Return the projection of this vector onto the *other*.\n" "\n" " :arg other: second vector.\n" " :type other: :class:`Vector`\n" " :return: the parallel projection vector\n" " :rtype: :class:`Vector`\n" ); static PyObject *Vector_project(VectorObject *self, PyObject *value) { const int size = self->size; float tvec[MAX_DIMENSIONS]; float vec[MAX_DIMENSIONS]; double dot = 0.0f, dot2 = 0.0f; int x; if (BaseMath_ReadCallback(self) == -1) return NULL; if (mathutils_array_parse(tvec, size, size, value, "Vector.project(other), invalid 'other' arg") == -1) return NULL; if (self->size > 4) { PyErr_SetString(PyExc_ValueError, "Vector must be 2D, 3D or 4D"); return NULL; } if (BaseMath_ReadCallback(self) == -1) return NULL; /* get dot products */ for (x = 0; x < size; x++) { dot += (double)(self->vec[x] * tvec[x]); dot2 += (double)(tvec[x] * tvec[x]); } /* projection */ dot /= dot2; for (x = 0; x < size; x++) { vec[x] = (float)dot * tvec[x]; } return Vector_CreatePyObject(vec, size, Py_NEW, Py_TYPE(self)); } PyDoc_STRVAR(Vector_lerp_doc, ".. function:: lerp(other, factor)\n" "\n" " Returns the interpolation of two vectors.\n" "\n" " :arg other: value to interpolate with.\n" " :type other: :class:`Vector`\n" " :arg factor: The interpolation value in [0.0, 1.0].\n" " :type factor: float\n" " :return: The interpolated vector.\n" " :rtype: :class:`Vector`\n" ); static PyObject *Vector_lerp(VectorObject *self, PyObject *args) { const int size = self->size; PyObject *value = NULL; float fac, ifac; float *tvec, *vec; int x; if (!PyArg_ParseTuple(args, "Of:lerp", &value, &fac)) return NULL; if (BaseMath_ReadCallback(self) == -1) { return NULL; } if (mathutils_array_parse_alloc(&tvec, size, value, "Vector.lerp(other), invalid 'other' arg") == -1) { return NULL; } vec = PyMem_Malloc(size * sizeof(float)); if (vec == NULL) { PyErr_SetString(PyExc_MemoryError, "Vector.lerp(): " "problem allocating pointer space"); return NULL; } ifac = 1.0f - fac; for (x = 0; x < size; x++) { vec[x] = (ifac * self->vec[x]) + (fac * tvec[x]); } PyMem_Free(tvec); return Vector_CreatePyObject_alloc(vec, size, Py_TYPE(self)); } PyDoc_STRVAR(Vector_slerp_doc, ".. function:: slerp(other, factor, fallback=None)\n" "\n" " Returns the interpolation of two non-zero vectors (spherical coordinates).\n" "\n" " :arg other: value to interpolate with.\n" " :type other: :class:`Vector`\n" " :arg factor: The interpolation value typically in [0.0, 1.0].\n" " :type factor: float\n" " :arg fallback: return this value when the vector can't be calculated\n" " (zero length vector or direct opposites)\n" " :type fallback: any\n" " :return: The interpolated vector.\n" " :rtype: :class:`Vector`\n" ); static PyObject *Vector_slerp(VectorObject *self, PyObject *args) { const int size = self->size; PyObject *value = NULL; float fac, cosom, w[2]; float self_vec[3], other_vec[3], ret_vec[3]; float self_len_sq, other_len_sq; int x; PyObject *fallback = NULL; if (!PyArg_ParseTuple(args, "Of|O:slerp", &value, &fac, &fallback)) return NULL; if (BaseMath_ReadCallback(self) == -1) { return NULL; } if (self->size > 3) { PyErr_SetString(PyExc_ValueError, "Vector must be 2D or 3D"); return NULL; } if (mathutils_array_parse(other_vec, size, size, value, "Vector.slerp(other), invalid 'other' arg") == -1) { return NULL; } self_len_sq = normalize_vn_vn(self_vec, self->vec, size); other_len_sq = normalize_vn(other_vec, size); /* use fallbacks for zero length vectors */ if (UNLIKELY((self_len_sq < FLT_EPSILON) || (other_len_sq < FLT_EPSILON))) { /* avoid exception */ if (fallback) { Py_INCREF(fallback); return fallback; } else { PyErr_SetString(PyExc_ValueError, "Vector.slerp(): " "zero length vectors unsupported"); return NULL; } } /* We have sane state, execute slerp */ cosom = (float)dot_vn_vn(self_vec, other_vec, size); /* direct opposite, can't slerp */ if (UNLIKELY(cosom < (-1.0f + FLT_EPSILON))) { /* avoid exception */ if (fallback) { Py_INCREF(fallback); return fallback; } else { PyErr_SetString(PyExc_ValueError, "Vector.slerp(): " "opposite vectors unsupported"); return NULL; } } interp_dot_slerp(fac, cosom, w); for (x = 0; x < size; x++) { ret_vec[x] = (w[0] * self_vec[x]) + (w[1] * other_vec[x]); } return Vector_CreatePyObject(ret_vec, size, Py_NEW, Py_TYPE(self)); } PyDoc_STRVAR(Vector_rotate_doc, ".. function:: rotate(other)\n" "\n" " Rotate the vector by a rotation value.\n" "\n" " :arg other: rotation component of mathutils value\n" " :type other: :class:`Euler`, :class:`Quaternion` or :class:`Matrix`\n" ); static PyObject *Vector_rotate(VectorObject *self, PyObject *value) { float other_rmat[3][3]; if (BaseMath_ReadCallback(self) == -1) return NULL; if (mathutils_any_to_rotmat(other_rmat, value, "Vector.rotate(value)") == -1) return NULL; if (self->size < 3 || self->size > 4) { PyErr_SetString(PyExc_ValueError, "Vector must be 3D or 4D"); return NULL; } mul_m3_v3(other_rmat, self->vec); (void)BaseMath_WriteCallback(self); Py_RETURN_NONE; } PyDoc_STRVAR(Vector_copy_doc, ".. function:: copy()\n" "\n" " Returns a copy of this vector.\n" "\n" " :return: A copy of the vector.\n" " :rtype: :class:`Vector`\n" "\n" " .. note:: use this to get a copy of a wrapped vector with\n" " no reference to the original data.\n" ); static PyObject *Vector_copy(VectorObject *self) { if (BaseMath_ReadCallback(self) == -1) return NULL; return Vector_CreatePyObject(self->vec, self->size, Py_NEW, Py_TYPE(self)); } static PyObject *Vector_deepcopy(VectorObject *self, PyObject *args) { if (!mathutils_deepcopy_args_check(args)) return NULL; return Vector_copy(self); } static PyObject *Vector_repr(VectorObject *self) { PyObject *ret, *tuple; if (BaseMath_ReadCallback(self) == -1) return NULL; tuple = Vector_to_tuple_ext(self, -1); ret = PyUnicode_FromFormat("Vector(%R)", tuple); Py_DECREF(tuple); return ret; } #ifndef MATH_STANDALONE static PyObject *Vector_str(VectorObject *self) { int i; DynStr *ds; if (BaseMath_ReadCallback(self) == -1) return NULL; ds = BLI_dynstr_new(); BLI_dynstr_append(ds, "size; i++) { BLI_dynstr_appendf(ds, i ? ", %.4f" : "%.4f", self->vec[i]); } BLI_dynstr_append(ds, ")>"); return mathutils_dynstr_to_py(ds); /* frees ds */ } #endif /* Sequence Protocol */ /* sequence length len(vector) */ static int Vector_len(VectorObject *self) { return self->size; } /* sequence accessor (get): vector[index] */ static PyObject *vector_item_internal(VectorObject *self, int i, const bool is_attr) { if (i < 0) i = self->size - i; if (i < 0 || i >= self->size) { if (is_attr) { PyErr_Format(PyExc_AttributeError, "Vector.%c: unavailable on %dd vector", *(((char *)"xyzw") + i), self->size); } else { PyErr_SetString(PyExc_IndexError, "vector[index]: out of range"); } return NULL; } if (BaseMath_ReadIndexCallback(self, i) == -1) return NULL; return PyFloat_FromDouble(self->vec[i]); } static PyObject *Vector_item(VectorObject *self, int i) { return vector_item_internal(self, i, false); } /* sequence accessor (set): vector[index] = value */ static int vector_ass_item_internal(VectorObject *self, int i, PyObject *value, const bool is_attr) { float scalar; if ((scalar = PyFloat_AsDouble(value)) == -1.0f && PyErr_Occurred()) { /* parsed item not a number */ PyErr_SetString(PyExc_TypeError, "vector[index] = x: " "assigned value not a number"); return -1; } if (i < 0) i = self->size - i; if (i < 0 || i >= self->size) { if (is_attr) { PyErr_Format(PyExc_AttributeError, "Vector.%c = x: unavailable on %dd vector", *(((char *)"xyzw") + i), self->size); } else { PyErr_SetString(PyExc_IndexError, "vector[index] = x: " "assignment index out of range"); } return -1; } self->vec[i] = scalar; if (BaseMath_WriteIndexCallback(self, i) == -1) return -1; return 0; } static int Vector_ass_item(VectorObject *self, int i, PyObject *value) { return vector_ass_item_internal(self, i, value, false); } /* sequence slice (get): vector[a:b] */ static PyObject *Vector_slice(VectorObject *self, int begin, int end) { PyObject *tuple; int count; if (BaseMath_ReadCallback(self) == -1) return NULL; CLAMP(begin, 0, self->size); if (end < 0) end = self->size + end + 1; CLAMP(end, 0, self->size); begin = MIN2(begin, end); tuple = PyTuple_New(end - begin); for (count = begin; count < end; count++) { PyTuple_SET_ITEM(tuple, count - begin, PyFloat_FromDouble(self->vec[count])); } return tuple; } /* sequence slice (set): vector[a:b] = value */ static int Vector_ass_slice(VectorObject *self, int begin, int end, PyObject *seq) { int size = 0; float *vec = NULL; if (BaseMath_ReadCallback(self) == -1) return -1; CLAMP(begin, 0, self->size); CLAMP(end, 0, self->size); begin = MIN2(begin, end); size = (end - begin); if (mathutils_array_parse_alloc(&vec, size, seq, "vector[begin:end] = [...]") == -1) { return -1; } if (vec == NULL) { PyErr_SetString(PyExc_MemoryError, "vec[:] = seq: " "problem allocating pointer space"); return -1; } /*parsed well - now set in vector*/ memcpy(self->vec + begin, vec, size * sizeof(float)); PyMem_Free(vec); if (BaseMath_WriteCallback(self) == -1) return -1; return 0; } /* Numeric Protocols */ /* addition: obj + obj */ static PyObject *Vector_add(PyObject *v1, PyObject *v2) { VectorObject *vec1 = NULL, *vec2 = NULL; float *vec = NULL; if (!VectorObject_Check(v1) || !VectorObject_Check(v2)) { PyErr_Format(PyExc_AttributeError, "Vector addition: (%s + %s) " "invalid type for this operation", Py_TYPE(v1)->tp_name, Py_TYPE(v2)->tp_name); return NULL; } vec1 = (VectorObject *)v1; vec2 = (VectorObject *)v2; if (BaseMath_ReadCallback(vec1) == -1 || BaseMath_ReadCallback(vec2) == -1) return NULL; /*VECTOR + VECTOR*/ if (vec1->size != vec2->size) { PyErr_SetString(PyExc_AttributeError, "Vector addition: " "vectors must have the same dimensions for this operation"); return NULL; } vec = PyMem_Malloc(vec1->size * sizeof(float)); if (vec == NULL) { /*allocation failure*/ PyErr_SetString(PyExc_MemoryError, "Vector(): " "problem allocating pointer space"); return NULL; } add_vn_vnvn(vec, vec1->vec, vec2->vec, vec1->size); return Vector_CreatePyObject_alloc(vec, vec1->size, Py_TYPE(v1)); } /* addition in-place: obj += obj */ static PyObject *Vector_iadd(PyObject *v1, PyObject *v2) { VectorObject *vec1 = NULL, *vec2 = NULL; if (!VectorObject_Check(v1) || !VectorObject_Check(v2)) { PyErr_Format(PyExc_AttributeError, "Vector addition: (%s += %s) " "invalid type for this operation", Py_TYPE(v1)->tp_name, Py_TYPE(v2)->tp_name); return NULL; } vec1 = (VectorObject *)v1; vec2 = (VectorObject *)v2; if (vec1->size != vec2->size) { PyErr_SetString(PyExc_AttributeError, "Vector addition: " "vectors must have the same dimensions for this operation"); return NULL; } if (BaseMath_ReadCallback(vec1) == -1 || BaseMath_ReadCallback(vec2) == -1) return NULL; add_vn_vn(vec1->vec, vec2->vec, vec1->size); (void)BaseMath_WriteCallback(vec1); Py_INCREF(v1); return v1; } /* subtraction: obj - obj */ static PyObject *Vector_sub(PyObject *v1, PyObject *v2) { VectorObject *vec1 = NULL, *vec2 = NULL; float *vec; if (!VectorObject_Check(v1) || !VectorObject_Check(v2)) { PyErr_Format(PyExc_AttributeError, "Vector subtraction: (%s - %s) " "invalid type for this operation", Py_TYPE(v1)->tp_name, Py_TYPE(v2)->tp_name); return NULL; } vec1 = (VectorObject *)v1; vec2 = (VectorObject *)v2; if (BaseMath_ReadCallback(vec1) == -1 || BaseMath_ReadCallback(vec2) == -1) return NULL; if (vec1->size != vec2->size) { PyErr_SetString(PyExc_AttributeError, "Vector subtraction: " "vectors must have the same dimensions for this operation"); return NULL; } vec = PyMem_Malloc(vec1->size * sizeof(float)); if (vec == NULL) { /*allocation failure*/ PyErr_SetString(PyExc_MemoryError, "Vector(): " "problem allocating pointer space"); return NULL; } sub_vn_vnvn(vec, vec1->vec, vec2->vec, vec1->size); return Vector_CreatePyObject_alloc(vec, vec1->size, Py_TYPE(v1)); } /* subtraction in-place: obj -= obj */ static PyObject *Vector_isub(PyObject *v1, PyObject *v2) { VectorObject *vec1 = NULL, *vec2 = NULL; if (!VectorObject_Check(v1) || !VectorObject_Check(v2)) { PyErr_Format(PyExc_AttributeError, "Vector subtraction: (%s -= %s) " "invalid type for this operation", Py_TYPE(v1)->tp_name, Py_TYPE(v2)->tp_name); return NULL; } vec1 = (VectorObject *)v1; vec2 = (VectorObject *)v2; if (vec1->size != vec2->size) { PyErr_SetString(PyExc_AttributeError, "Vector subtraction: " "vectors must have the same dimensions for this operation"); return NULL; } if (BaseMath_ReadCallback(vec1) == -1 || BaseMath_ReadCallback(vec2) == -1) return NULL; sub_vn_vn(vec1->vec, vec2->vec, vec1->size); (void)BaseMath_WriteCallback(vec1); Py_INCREF(v1); return v1; } /*------------------------obj * obj------------------------------ * multiplication */ /* COLUMN VECTOR Multiplication (Matrix X Vector) * [1][4][7] [a] * [2][5][8] * [b] * [3][6][9] [c] * * note: vector/matrix multiplication IS NOT COMMUTATIVE!!!! * note: assume read callbacks have been done first. */ int column_vector_multiplication(float r_vec[MAX_DIMENSIONS], VectorObject *vec, MatrixObject *mat) { float vec_cpy[MAX_DIMENSIONS]; int row, col, z = 0; if (mat->num_col != vec->size) { if (mat->num_col == 4 && vec->size == 3) { vec_cpy[3] = 1.0f; } else { PyErr_SetString(PyExc_ValueError, "matrix * vector: " "len(matrix.col) and len(vector) must be the same, " "except for 4x4 matrix * 3D vector."); return -1; } } memcpy(vec_cpy, vec->vec, vec->size * sizeof(float)); r_vec[3] = 1.0f; for (row = 0; row < mat->num_row; row++) { double dot = 0.0f; for (col = 0; col < mat->num_col; col++) { dot += (double)(MATRIX_ITEM(mat, row, col) * vec_cpy[col]); } r_vec[z++] = (float)dot; } return 0; } static PyObject *vector_mul_float(VectorObject *vec, const float scalar) { float *tvec = PyMem_Malloc(vec->size * sizeof(float)); if (tvec == NULL) { /*allocation failure*/ PyErr_SetString(PyExc_MemoryError, "vec * float: " "problem allocating pointer space"); return NULL; } mul_vn_vn_fl(tvec, vec->vec, vec->size, scalar); return Vector_CreatePyObject_alloc(tvec, vec->size, Py_TYPE(vec)); } static PyObject *Vector_mul(PyObject *v1, PyObject *v2) { VectorObject *vec1 = NULL, *vec2 = NULL; float scalar; int vec_size; if (VectorObject_Check(v1)) { vec1 = (VectorObject *)v1; if (BaseMath_ReadCallback(vec1) == -1) return NULL; } if (VectorObject_Check(v2)) { vec2 = (VectorObject *)v2; if (BaseMath_ReadCallback(vec2) == -1) return NULL; } /* make sure v1 is always the vector */ if (vec1 && vec2) { if (vec1->size != vec2->size) { PyErr_SetString(PyExc_ValueError, "Vector multiplication: " "vectors must have the same dimensions for this operation"); return NULL; } /*dot product*/ return PyFloat_FromDouble(dot_vn_vn(vec1->vec, vec2->vec, vec1->size)); } else if (vec1) { if (MatrixObject_Check(v2)) { /* VEC * MATRIX */ float tvec[MAX_DIMENSIONS]; if (BaseMath_ReadCallback((MatrixObject *)v2) == -1) return NULL; if (row_vector_multiplication(tvec, vec1, (MatrixObject *)v2) == -1) { return NULL; } if (((MatrixObject *)v2)->num_row == 4 && vec1->size == 3) { vec_size = 3; } else { vec_size = ((MatrixObject *)v2)->num_col; } return Vector_CreatePyObject(tvec, vec_size, Py_NEW, Py_TYPE(vec1)); } else if (QuaternionObject_Check(v2)) { /* VEC * QUAT */ /* ------ to be removed ------*/ #if 1 PyErr_SetString(PyExc_ValueError, "(Vector * Quat) is now removed, reverse the " "order (promoted to an Error for Debug builds)"); return NULL; #else QuaternionObject *quat2 = (QuaternionObject *)v2; float tvec[3]; if (vec1->size != 3) { PyErr_SetString(PyExc_ValueError, "Vector multiplication: " "only 3D vector rotations (with quats) currently supported"); return NULL; } if (BaseMath_ReadCallback(quat2) == -1) { return NULL; } copy_v3_v3(tvec, vec1->vec); mul_qt_v3(quat2->quat, tvec); return Vector_CreatePyObject(tvec, 3, Py_NEW, Py_TYPE(vec1)); #endif /* ------ to be removed ------*/ } else if (((scalar = PyFloat_AsDouble(v2)) == -1.0f && PyErr_Occurred()) == 0) { /* VEC * FLOAT */ return vector_mul_float(vec1, scalar); } } else if (vec2) { if (((scalar = PyFloat_AsDouble(v1)) == -1.0f && PyErr_Occurred()) == 0) { /* FLOAT * VEC */ return vector_mul_float(vec2, scalar); } } else { BLI_assert(!"internal error"); } PyErr_Format(PyExc_TypeError, "Vector multiplication: " "not supported between '%.200s' and '%.200s' types", Py_TYPE(v1)->tp_name, Py_TYPE(v2)->tp_name); return NULL; } /* multiplication in-place: obj *= obj */ static PyObject *Vector_imul(PyObject *v1, PyObject *v2) { VectorObject *vec = (VectorObject *)v1; float scalar; if (BaseMath_ReadCallback(vec) == -1) return NULL; /* only support vec*=float and vec*=mat * vec*=vec result is a float so that wont work */ if (MatrixObject_Check(v2)) { /* ------ to be removed ------*/ #if 1 PyErr_SetString(PyExc_ValueError, "(Vector *= Matrix) is now removed, reverse the " "order (promoted to an Error for Debug builds) " "and uses the non in-place multiplication."); return NULL; #else float rvec[MAX_DIMENSIONS]; if (BaseMath_ReadCallback((MatrixObject *)v2) == -1) return NULL; if (column_vector_multiplication(rvec, vec, (MatrixObject *)v2) == -1) return NULL; memcpy(vec->vec, rvec, sizeof(float) * vec->size); #endif /* ------ to be removed ------*/ } else if (QuaternionObject_Check(v2)) { /* VEC *= QUAT */ /* ------ to be removed ------*/ #if 1 PyErr_SetString(PyExc_ValueError, "(Vector *= Quat) is now removed, reverse the " "order (promoted to an Error for Debug builds) " "and uses the non in-place multiplication."); return NULL; #else QuaternionObject *quat2 = (QuaternionObject *)v2; if (vec->size != 3) { PyErr_SetString(PyExc_ValueError, "Vector multiplication: " "only 3D vector rotations (with quats) currently supported"); return NULL; } if (BaseMath_ReadCallback(quat2) == -1) { return NULL; } mul_qt_v3(quat2->quat, vec->vec); #endif /* ------ to be removed ------*/ } else if (((scalar = PyFloat_AsDouble(v2)) == -1.0f && PyErr_Occurred()) == 0) { /* VEC *= FLOAT */ mul_vn_fl(vec->vec, vec->size, scalar); } else { PyErr_Format(PyExc_TypeError, "Vector multiplication: (%s *= %s) " "invalid type for this operation", Py_TYPE(v1)->tp_name, Py_TYPE(v2)->tp_name); return NULL; } (void)BaseMath_WriteCallback(vec); Py_INCREF(v1); return v1; } /* divid: obj / obj */ static PyObject *Vector_div(PyObject *v1, PyObject *v2) { float *vec = NULL, scalar; VectorObject *vec1 = NULL; if (!VectorObject_Check(v1)) { /* not a vector */ PyErr_SetString(PyExc_TypeError, "Vector division: " "Vector must be divided by a float"); return NULL; } vec1 = (VectorObject *)v1; /* vector */ if (BaseMath_ReadCallback(vec1) == -1) return NULL; if ((scalar = PyFloat_AsDouble(v2)) == -1.0f && PyErr_Occurred()) { /* parsed item not a number */ PyErr_SetString(PyExc_TypeError, "Vector division: " "Vector must be divided by a float"); return NULL; } if (scalar == 0.0f) { PyErr_SetString(PyExc_ZeroDivisionError, "Vector division: " "divide by zero error"); return NULL; } vec = PyMem_Malloc(vec1->size * sizeof(float)); if (vec == NULL) { /*allocation failure*/ PyErr_SetString(PyExc_MemoryError, "vec / value: " "problem allocating pointer space"); return NULL; } mul_vn_vn_fl(vec, vec1->vec, vec1->size, 1.0f / scalar); return Vector_CreatePyObject_alloc(vec, vec1->size, Py_TYPE(v1)); } /* divide in-place: obj /= obj */ static PyObject *Vector_idiv(PyObject *v1, PyObject *v2) { float scalar; VectorObject *vec1 = (VectorObject *)v1; if (BaseMath_ReadCallback(vec1) == -1) return NULL; if ((scalar = PyFloat_AsDouble(v2)) == -1.0f && PyErr_Occurred()) { /* parsed item not a number */ PyErr_SetString(PyExc_TypeError, "Vector division: " "Vector must be divided by a float"); return NULL; } if (scalar == 0.0f) { PyErr_SetString(PyExc_ZeroDivisionError, "Vector division: " "divide by zero error"); return NULL; } mul_vn_fl(vec1->vec, vec1->size, 1.0f / scalar); (void)BaseMath_WriteCallback(vec1); Py_INCREF(v1); return v1; } /* -obj * returns the negative of this object*/ static PyObject *Vector_neg(VectorObject *self) { float *tvec; if (BaseMath_ReadCallback(self) == -1) return NULL; tvec = PyMem_Malloc(self->size * sizeof(float)); negate_vn_vn(tvec, self->vec, self->size); return Vector_CreatePyObject_alloc(tvec, self->size, Py_TYPE(self)); } /*------------------------tp_richcmpr * returns -1 exception, 0 false, 1 true */ static PyObject *Vector_richcmpr(PyObject *objectA, PyObject *objectB, int comparison_type) { VectorObject *vecA = NULL, *vecB = NULL; int result = 0; double epsilon = 0.000001f; double lenA, lenB; if (!VectorObject_Check(objectA) || !VectorObject_Check(objectB)) { if (comparison_type == Py_NE) { Py_RETURN_TRUE; } else { Py_RETURN_FALSE; } } vecA = (VectorObject *)objectA; vecB = (VectorObject *)objectB; if (BaseMath_ReadCallback(vecA) == -1 || BaseMath_ReadCallback(vecB) == -1) return NULL; if (vecA->size != vecB->size) { if (comparison_type == Py_NE) { Py_RETURN_TRUE; } else { Py_RETURN_FALSE; } } switch (comparison_type) { case Py_LT: lenA = len_squared_vn(vecA->vec, vecA->size); lenB = len_squared_vn(vecB->vec, vecB->size); if (lenA < lenB) { result = 1; } break; case Py_LE: lenA = len_squared_vn(vecA->vec, vecA->size); lenB = len_squared_vn(vecB->vec, vecB->size); if (lenA < lenB) { result = 1; } else { result = (((lenA + epsilon) > lenB) && ((lenA - epsilon) < lenB)); } break; case Py_EQ: result = EXPP_VectorsAreEqual(vecA->vec, vecB->vec, vecA->size, 1); break; case Py_NE: result = !EXPP_VectorsAreEqual(vecA->vec, vecB->vec, vecA->size, 1); break; case Py_GT: lenA = len_squared_vn(vecA->vec, vecA->size); lenB = len_squared_vn(vecB->vec, vecB->size); if (lenA > lenB) { result = 1; } break; case Py_GE: lenA = len_squared_vn(vecA->vec, vecA->size); lenB = len_squared_vn(vecB->vec, vecB->size); if (lenA > lenB) { result = 1; } else { result = (((lenA + epsilon) > lenB) && ((lenA - epsilon) < lenB)); } break; default: printf("The result of the comparison could not be evaluated"); break; } if (result == 1) { Py_RETURN_TRUE; } else { Py_RETURN_FALSE; } } /*-----------------PROTCOL DECLARATIONS--------------------------*/ static PySequenceMethods Vector_SeqMethods = { (lenfunc) Vector_len, /* sq_length */ (binaryfunc) NULL, /* sq_concat */ (ssizeargfunc) NULL, /* sq_repeat */ (ssizeargfunc) Vector_item, /* sq_item */ NULL, /* py3 deprecated slice func */ (ssizeobjargproc) Vector_ass_item, /* sq_ass_item */ NULL, /* py3 deprecated slice assign func */ (objobjproc) NULL, /* sq_contains */ (binaryfunc) NULL, /* sq_inplace_concat */ (ssizeargfunc) NULL, /* sq_inplace_repeat */ }; static PyObject *Vector_subscript(VectorObject *self, PyObject *item) { if (PyIndex_Check(item)) { Py_ssize_t i; i = PyNumber_AsSsize_t(item, PyExc_IndexError); if (i == -1 && PyErr_Occurred()) return NULL; if (i < 0) i += self->size; return Vector_item(self, i); } else if (PySlice_Check(item)) { Py_ssize_t start, stop, step, slicelength; if (PySlice_GetIndicesEx(item, self->size, &start, &stop, &step, &slicelength) < 0) return NULL; if (slicelength <= 0) { return PyTuple_New(0); } else if (step == 1) { return Vector_slice(self, start, stop); } else { PyErr_SetString(PyExc_IndexError, "slice steps not supported with vectors"); return NULL; } } else { PyErr_Format(PyExc_TypeError, "vector indices must be integers, not %.200s", Py_TYPE(item)->tp_name); return NULL; } } static int Vector_ass_subscript(VectorObject *self, PyObject *item, PyObject *value) { if (PyIndex_Check(item)) { Py_ssize_t i = PyNumber_AsSsize_t(item, PyExc_IndexError); if (i == -1 && PyErr_Occurred()) return -1; if (i < 0) i += self->size; return Vector_ass_item(self, i, value); } else if (PySlice_Check(item)) { Py_ssize_t start, stop, step, slicelength; if (PySlice_GetIndicesEx(item, self->size, &start, &stop, &step, &slicelength) < 0) return -1; if (step == 1) return Vector_ass_slice(self, start, stop, value); else { PyErr_SetString(PyExc_IndexError, "slice steps not supported with vectors"); return -1; } } else { PyErr_Format(PyExc_TypeError, "vector indices must be integers, not %.200s", Py_TYPE(item)->tp_name); return -1; } } static PyMappingMethods Vector_AsMapping = { (lenfunc)Vector_len, (binaryfunc)Vector_subscript, (objobjargproc)Vector_ass_subscript }; static PyNumberMethods Vector_NumMethods = { (binaryfunc) Vector_add, /*nb_add*/ (binaryfunc) Vector_sub, /*nb_subtract*/ (binaryfunc) Vector_mul, /*nb_multiply*/ NULL, /*nb_remainder*/ NULL, /*nb_divmod*/ NULL, /*nb_power*/ (unaryfunc) Vector_neg, /*nb_negative*/ (unaryfunc) Vector_copy,/*tp_positive*/ (unaryfunc) NULL, /*tp_absolute*/ (inquiry) NULL, /*tp_bool*/ (unaryfunc) NULL, /*nb_invert*/ NULL, /*nb_lshift*/ (binaryfunc)NULL, /*nb_rshift*/ NULL, /*nb_and*/ NULL, /*nb_xor*/ NULL, /*nb_or*/ NULL, /*nb_int*/ NULL, /*nb_reserved*/ NULL, /*nb_float*/ Vector_iadd, /* nb_inplace_add */ Vector_isub, /* nb_inplace_subtract */ Vector_imul, /* nb_inplace_multiply */ NULL, /* nb_inplace_remainder */ NULL, /* nb_inplace_power */ NULL, /* nb_inplace_lshift */ NULL, /* nb_inplace_rshift */ NULL, /* nb_inplace_and */ NULL, /* nb_inplace_xor */ NULL, /* nb_inplace_or */ NULL, /* nb_floor_divide */ Vector_div, /* nb_true_divide */ NULL, /* nb_inplace_floor_divide */ Vector_idiv, /* nb_inplace_true_divide */ NULL, /* nb_index */ }; /*------------------PY_OBECT DEFINITION--------------------------*/ /* vector axis, vector.x/y/z/w */ PyDoc_STRVAR(Vector_axis_x_doc, "Vector X axis.\n\n:type: float"); PyDoc_STRVAR(Vector_axis_y_doc, "Vector Y axis.\n\n:type: float"); PyDoc_STRVAR(Vector_axis_z_doc, "Vector Z axis (3D Vectors only).\n\n:type: float"); PyDoc_STRVAR(Vector_axis_w_doc, "Vector W axis (4D Vectors only).\n\n:type: float"); static PyObject *Vector_axis_get(VectorObject *self, void *type) { return vector_item_internal(self, GET_INT_FROM_POINTER(type), true); } static int Vector_axis_set(VectorObject *self, PyObject *value, void *type) { return vector_ass_item_internal(self, GET_INT_FROM_POINTER(type), value, true); } /* vector.length */ PyDoc_STRVAR(Vector_length_doc, "Vector Length.\n\n:type: float" ); static PyObject *Vector_length_get(VectorObject *self, void *UNUSED(closure)) { if (BaseMath_ReadCallback(self) == -1) return NULL; return PyFloat_FromDouble(sqrt(dot_vn_vn(self->vec, self->vec, self->size))); } static int Vector_length_set(VectorObject *self, PyObject *value) { double dot = 0.0f, param; if (BaseMath_ReadCallback(self) == -1) return -1; if ((param = PyFloat_AsDouble(value)) == -1.0 && PyErr_Occurred()) { PyErr_SetString(PyExc_TypeError, "length must be set to a number"); return -1; } if (param < 0.0) { PyErr_SetString(PyExc_ValueError, "cannot set a vectors length to a negative value"); return -1; } if (param == 0.0) { fill_vn_fl(self->vec, self->size, 0.0f); return 0; } dot = dot_vn_vn(self->vec, self->vec, self->size); if (!dot) /* cant sqrt zero */ return 0; dot = sqrt(dot); if (dot == param) return 0; dot = dot / param; mul_vn_fl(self->vec, self->size, 1.0 / dot); (void)BaseMath_WriteCallback(self); /* checked already */ return 0; } /* vector.length_squared */ PyDoc_STRVAR(Vector_length_squared_doc, "Vector length squared (v.dot(v)).\n\n:type: float" ); static PyObject *Vector_length_squared_get(VectorObject *self, void *UNUSED(closure)) { if (BaseMath_ReadCallback(self) == -1) return NULL; return PyFloat_FromDouble(dot_vn_vn(self->vec, self->vec, self->size)); } /* Get a new Vector according to the provided swizzle. This function has little * error checking, as we are in control of the inputs: the closure is set by us * in Vector_createSwizzleGetSeter. */ static PyObject *Vector_swizzle_get(VectorObject *self, void *closure) { size_t axis_to; size_t axis_from; float vec[MAX_DIMENSIONS]; unsigned int swizzleClosure; if (BaseMath_ReadCallback(self) == -1) return NULL; /* Unpack the axes from the closure into an array. */ axis_to = 0; swizzleClosure = GET_INT_FROM_POINTER(closure); while (swizzleClosure & SWIZZLE_VALID_AXIS) { axis_from = swizzleClosure & SWIZZLE_AXIS; if (axis_from >= self->size) { PyErr_SetString(PyExc_AttributeError, "Vector swizzle: " "specified axis not present"); return NULL; } vec[axis_to] = self->vec[axis_from]; swizzleClosure = swizzleClosure >> SWIZZLE_BITS_PER_AXIS; axis_to++; } return Vector_CreatePyObject(vec, axis_to, Py_NEW, Py_TYPE(self)); } /* Set the items of this vector using a swizzle. * - If value is a vector or list this operates like an array copy, except that * the destination is effectively re-ordered as defined by the swizzle. At * most min(len(source), len(dest)) values will be copied. * - If the value is scalar, it is copied to all axes listed in the swizzle. * - If an axis appears more than once in the swizzle, the final occurrence is * the one that determines its value. * * Returns 0 on success and -1 on failure. On failure, the vector will be * unchanged. */ static int Vector_swizzle_set(VectorObject *self, PyObject *value, void *closure) { size_t size_from; float scalarVal; size_t axis_from; size_t axis_to; unsigned int swizzleClosure; float tvec[MAX_DIMENSIONS]; float vec_assign[MAX_DIMENSIONS]; if (BaseMath_ReadCallback(self) == -1) return -1; /* Check that the closure can be used with this vector: even 2D vectors have * swizzles defined for axes z and w, but they would be invalid. */ swizzleClosure = GET_INT_FROM_POINTER(closure); axis_from = 0; while (swizzleClosure & SWIZZLE_VALID_AXIS) { axis_to = swizzleClosure & SWIZZLE_AXIS; if (axis_to >= self->size) { PyErr_SetString(PyExc_AttributeError, "Vector swizzle: " "specified axis not present"); return -1; } swizzleClosure = swizzleClosure >> SWIZZLE_BITS_PER_AXIS; axis_from++; } if (((scalarVal = PyFloat_AsDouble(value)) == -1 && PyErr_Occurred()) == 0) { int i; for (i = 0; i < MAX_DIMENSIONS; i++) { vec_assign[i] = scalarVal; } size_from = axis_from; } else if ((PyErr_Clear()), /* run but ignore the result */ (size_from = mathutils_array_parse(vec_assign, 2, 4, value, "mathutils.Vector.**** = swizzle assignment")) == -1) { return -1; } if (axis_from != size_from) { PyErr_SetString(PyExc_AttributeError, "Vector swizzle: size does not match swizzle"); return -1; } /* Copy vector contents onto swizzled axes. */ axis_from = 0; swizzleClosure = GET_INT_FROM_POINTER(closure); /* We must first copy current vec into tvec, else some org values may be lost. * See [#31760]. * Assuming self->size can't be higher than MAX_DIMENSIONS! */ memcpy(tvec, self->vec, self->size * sizeof(float)); while (swizzleClosure & SWIZZLE_VALID_AXIS) { axis_to = swizzleClosure & SWIZZLE_AXIS; tvec[axis_to] = vec_assign[axis_from]; swizzleClosure = swizzleClosure >> SWIZZLE_BITS_PER_AXIS; axis_from++; } /* We must copy back the whole tvec into vec, else some changes may be lost (e.g. xz...). * See [#31760]. */ memcpy(self->vec, tvec, self->size * sizeof(float)); /* continue with BaseMathObject_WriteCallback at the end */ if (BaseMath_WriteCallback(self) == -1) return -1; else return 0; } /*****************************************************************************/ /* Python attributes get/set structure: */ /*****************************************************************************/ static PyGetSetDef Vector_getseters[] = { {(char *)"x", (getter)Vector_axis_get, (setter)Vector_axis_set, Vector_axis_x_doc, (void *)0}, {(char *)"y", (getter)Vector_axis_get, (setter)Vector_axis_set, Vector_axis_y_doc, (void *)1}, {(char *)"z", (getter)Vector_axis_get, (setter)Vector_axis_set, Vector_axis_z_doc, (void *)2}, {(char *)"w", (getter)Vector_axis_get, (setter)Vector_axis_set, Vector_axis_w_doc, (void *)3}, {(char *)"length", (getter)Vector_length_get, (setter)Vector_length_set, Vector_length_doc, NULL}, {(char *)"length_squared", (getter)Vector_length_squared_get, (setter)NULL, Vector_length_squared_doc, NULL}, {(char *)"magnitude", (getter)Vector_length_get, (setter)Vector_length_set, Vector_length_doc, NULL}, {(char *)"is_wrapped", (getter)BaseMathObject_is_wrapped_get, (setter)NULL, BaseMathObject_is_wrapped_doc, NULL}, {(char *)"owner", (getter)BaseMathObject_owner_get, (setter)NULL, BaseMathObject_owner_doc, NULL}, /* autogenerated swizzle attrs, see python script below */ {(char *)"xx", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((0 | SWIZZLE_VALID_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS)))}, // 36 {(char *)"xxx", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((0 | SWIZZLE_VALID_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2))))}, // 292 {(char *)"xxxx", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((0 | SWIZZLE_VALID_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 2340 {(char *)"xxxy", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((0 | SWIZZLE_VALID_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 2852 {(char *)"xxxz", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((0 | SWIZZLE_VALID_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 3364 {(char *)"xxxw", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((0 | SWIZZLE_VALID_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 3876 {(char *)"xxy", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((0 | SWIZZLE_VALID_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2))))}, // 356 {(char *)"xxyx", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((0 | SWIZZLE_VALID_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 2404 {(char *)"xxyy", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((0 | SWIZZLE_VALID_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 2916 {(char *)"xxyz", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((0 | SWIZZLE_VALID_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 3428 {(char *)"xxyw", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((0 | SWIZZLE_VALID_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 3940 {(char *)"xxz", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((0 | SWIZZLE_VALID_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2))))}, // 420 {(char *)"xxzx", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((0 | SWIZZLE_VALID_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 2468 {(char *)"xxzy", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((0 | SWIZZLE_VALID_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 2980 {(char *)"xxzz", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((0 | SWIZZLE_VALID_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 3492 {(char *)"xxzw", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((0 | SWIZZLE_VALID_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 4004 {(char *)"xxw", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((0 | SWIZZLE_VALID_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2))))}, // 484 {(char *)"xxwx", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((0 | SWIZZLE_VALID_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 2532 {(char *)"xxwy", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((0 | SWIZZLE_VALID_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 3044 {(char *)"xxwz", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((0 | SWIZZLE_VALID_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 3556 {(char *)"xxww", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((0 | SWIZZLE_VALID_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 4068 {(char *)"xy", (getter)Vector_swizzle_get, (setter)Vector_swizzle_set, NULL, SET_INT_IN_POINTER(((0 | SWIZZLE_VALID_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS)))}, // 44 {(char *)"xyx", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((0 | SWIZZLE_VALID_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2))))}, // 300 {(char *)"xyxx", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((0 | SWIZZLE_VALID_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 2348 {(char *)"xyxy", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((0 | SWIZZLE_VALID_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 2860 {(char *)"xyxz", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((0 | SWIZZLE_VALID_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 3372 {(char *)"xyxw", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((0 | SWIZZLE_VALID_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 3884 {(char *)"xyy", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((0 | SWIZZLE_VALID_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2))))}, // 364 {(char *)"xyyx", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((0 | SWIZZLE_VALID_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 2412 {(char *)"xyyy", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((0 | SWIZZLE_VALID_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 2924 {(char *)"xyyz", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((0 | SWIZZLE_VALID_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 3436 {(char *)"xyyw", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((0 | SWIZZLE_VALID_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 3948 {(char *)"xyz", (getter)Vector_swizzle_get, (setter)Vector_swizzle_set, NULL, SET_INT_IN_POINTER(((0 | SWIZZLE_VALID_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2))))}, // 428 {(char *)"xyzx", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((0 | SWIZZLE_VALID_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 2476 {(char *)"xyzy", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((0 | SWIZZLE_VALID_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 2988 {(char *)"xyzz", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((0 | SWIZZLE_VALID_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 3500 {(char *)"xyzw", (getter)Vector_swizzle_get, (setter)Vector_swizzle_set, NULL, SET_INT_IN_POINTER(((0 | SWIZZLE_VALID_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 4012 {(char *)"xyw", (getter)Vector_swizzle_get, (setter)Vector_swizzle_set, NULL, SET_INT_IN_POINTER(((0 | SWIZZLE_VALID_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2))))}, // 492 {(char *)"xywx", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((0 | SWIZZLE_VALID_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 2540 {(char *)"xywy", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((0 | SWIZZLE_VALID_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 3052 {(char *)"xywz", (getter)Vector_swizzle_get, (setter)Vector_swizzle_set, NULL, SET_INT_IN_POINTER(((0 | SWIZZLE_VALID_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 3564 {(char *)"xyww", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((0 | SWIZZLE_VALID_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 4076 {(char *)"xz", (getter)Vector_swizzle_get, (setter)Vector_swizzle_set, NULL, SET_INT_IN_POINTER(((0 | SWIZZLE_VALID_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS)))}, // 52 {(char *)"xzx", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((0 | SWIZZLE_VALID_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2))))}, // 308 {(char *)"xzxx", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((0 | SWIZZLE_VALID_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 2356 {(char *)"xzxy", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((0 | SWIZZLE_VALID_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 2868 {(char *)"xzxz", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((0 | SWIZZLE_VALID_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 3380 {(char *)"xzxw", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((0 | SWIZZLE_VALID_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 3892 {(char *)"xzy", (getter)Vector_swizzle_get, (setter)Vector_swizzle_set, NULL, SET_INT_IN_POINTER(((0 | SWIZZLE_VALID_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2))))}, // 372 {(char *)"xzyx", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((0 | SWIZZLE_VALID_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 2420 {(char *)"xzyy", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((0 | SWIZZLE_VALID_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 2932 {(char *)"xzyz", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((0 | SWIZZLE_VALID_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 3444 {(char *)"xzyw", (getter)Vector_swizzle_get, (setter)Vector_swizzle_set, NULL, SET_INT_IN_POINTER(((0 | SWIZZLE_VALID_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 3956 {(char *)"xzz", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((0 | SWIZZLE_VALID_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2))))}, // 436 {(char *)"xzzx", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((0 | SWIZZLE_VALID_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 2484 {(char *)"xzzy", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((0 | SWIZZLE_VALID_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 2996 {(char *)"xzzz", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((0 | SWIZZLE_VALID_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 3508 {(char *)"xzzw", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((0 | SWIZZLE_VALID_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 4020 {(char *)"xzw", (getter)Vector_swizzle_get, (setter)Vector_swizzle_set, NULL, SET_INT_IN_POINTER(((0 | SWIZZLE_VALID_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2))))}, // 500 {(char *)"xzwx", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((0 | SWIZZLE_VALID_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 2548 {(char *)"xzwy", (getter)Vector_swizzle_get, (setter)Vector_swizzle_set, NULL, SET_INT_IN_POINTER(((0 | SWIZZLE_VALID_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 3060 {(char *)"xzwz", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((0 | SWIZZLE_VALID_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 3572 {(char *)"xzww", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((0 | SWIZZLE_VALID_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 4084 {(char *)"xw", (getter)Vector_swizzle_get, (setter)Vector_swizzle_set, NULL, SET_INT_IN_POINTER(((0 | SWIZZLE_VALID_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS)))}, // 60 {(char *)"xwx", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((0 | SWIZZLE_VALID_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2))))}, // 316 {(char *)"xwxx", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((0 | SWIZZLE_VALID_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 2364 {(char *)"xwxy", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((0 | SWIZZLE_VALID_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 2876 {(char *)"xwxz", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((0 | SWIZZLE_VALID_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 3388 {(char *)"xwxw", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((0 | SWIZZLE_VALID_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 3900 {(char *)"xwy", (getter)Vector_swizzle_get, (setter)Vector_swizzle_set, NULL, SET_INT_IN_POINTER(((0 | SWIZZLE_VALID_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2))))}, // 380 {(char *)"xwyx", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((0 | SWIZZLE_VALID_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 2428 {(char *)"xwyy", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((0 | SWIZZLE_VALID_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 2940 {(char *)"xwyz", (getter)Vector_swizzle_get, (setter)Vector_swizzle_set, NULL, SET_INT_IN_POINTER(((0 | SWIZZLE_VALID_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 3452 {(char *)"xwyw", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((0 | SWIZZLE_VALID_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 3964 {(char *)"xwz", (getter)Vector_swizzle_get, (setter)Vector_swizzle_set, NULL, SET_INT_IN_POINTER(((0 | SWIZZLE_VALID_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2))))}, // 444 {(char *)"xwzx", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((0 | SWIZZLE_VALID_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 2492 {(char *)"xwzy", (getter)Vector_swizzle_get, (setter)Vector_swizzle_set, NULL, SET_INT_IN_POINTER(((0 | SWIZZLE_VALID_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 3004 {(char *)"xwzz", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((0 | SWIZZLE_VALID_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 3516 {(char *)"xwzw", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((0 | SWIZZLE_VALID_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 4028 {(char *)"xww", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((0 | SWIZZLE_VALID_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2))))}, // 508 {(char *)"xwwx", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((0 | SWIZZLE_VALID_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 2556 {(char *)"xwwy", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((0 | SWIZZLE_VALID_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 3068 {(char *)"xwwz", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((0 | SWIZZLE_VALID_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 3580 {(char *)"xwww", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((0 | SWIZZLE_VALID_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 4092 {(char *)"yx", (getter)Vector_swizzle_get, (setter)Vector_swizzle_set, NULL, SET_INT_IN_POINTER(((1 | SWIZZLE_VALID_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS)))}, // 37 {(char *)"yxx", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((1 | SWIZZLE_VALID_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2))))}, // 293 {(char *)"yxxx", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((1 | SWIZZLE_VALID_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 2341 {(char *)"yxxy", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((1 | SWIZZLE_VALID_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 2853 {(char *)"yxxz", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((1 | SWIZZLE_VALID_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 3365 {(char *)"yxxw", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((1 | SWIZZLE_VALID_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 3877 {(char *)"yxy", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((1 | SWIZZLE_VALID_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2))))}, // 357 {(char *)"yxyx", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((1 | SWIZZLE_VALID_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 2405 {(char *)"yxyy", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((1 | SWIZZLE_VALID_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 2917 {(char *)"yxyz", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((1 | SWIZZLE_VALID_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 3429 {(char *)"yxyw", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((1 | SWIZZLE_VALID_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 3941 {(char *)"yxz", (getter)Vector_swizzle_get, (setter)Vector_swizzle_set, NULL, SET_INT_IN_POINTER(((1 | SWIZZLE_VALID_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2))))}, // 421 {(char *)"yxzx", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((1 | SWIZZLE_VALID_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 2469 {(char *)"yxzy", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((1 | SWIZZLE_VALID_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 2981 {(char *)"yxzz", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((1 | SWIZZLE_VALID_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 3493 {(char *)"yxzw", (getter)Vector_swizzle_get, (setter)Vector_swizzle_set, NULL, SET_INT_IN_POINTER(((1 | SWIZZLE_VALID_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 4005 {(char *)"yxw", (getter)Vector_swizzle_get, (setter)Vector_swizzle_set, NULL, SET_INT_IN_POINTER(((1 | SWIZZLE_VALID_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2))))}, // 485 {(char *)"yxwx", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((1 | SWIZZLE_VALID_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 2533 {(char *)"yxwy", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((1 | SWIZZLE_VALID_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 3045 {(char *)"yxwz", (getter)Vector_swizzle_get, (setter)Vector_swizzle_set, NULL, SET_INT_IN_POINTER(((1 | SWIZZLE_VALID_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 3557 {(char *)"yxww", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((1 | SWIZZLE_VALID_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 4069 {(char *)"yy", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((1 | SWIZZLE_VALID_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS)))}, // 45 {(char *)"yyx", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((1 | SWIZZLE_VALID_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2))))}, // 301 {(char *)"yyxx", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((1 | SWIZZLE_VALID_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 2349 {(char *)"yyxy", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((1 | SWIZZLE_VALID_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 2861 {(char *)"yyxz", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((1 | SWIZZLE_VALID_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 3373 {(char *)"yyxw", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((1 | SWIZZLE_VALID_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 3885 {(char *)"yyy", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((1 | SWIZZLE_VALID_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2))))}, // 365 {(char *)"yyyx", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((1 | SWIZZLE_VALID_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 2413 {(char *)"yyyy", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((1 | SWIZZLE_VALID_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 2925 {(char *)"yyyz", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((1 | SWIZZLE_VALID_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 3437 {(char *)"yyyw", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((1 | SWIZZLE_VALID_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 3949 {(char *)"yyz", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((1 | SWIZZLE_VALID_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2))))}, // 429 {(char *)"yyzx", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((1 | SWIZZLE_VALID_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 2477 {(char *)"yyzy", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((1 | SWIZZLE_VALID_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 2989 {(char *)"yyzz", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((1 | SWIZZLE_VALID_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 3501 {(char *)"yyzw", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((1 | SWIZZLE_VALID_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 4013 {(char *)"yyw", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((1 | SWIZZLE_VALID_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2))))}, // 493 {(char *)"yywx", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((1 | SWIZZLE_VALID_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 2541 {(char *)"yywy", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((1 | SWIZZLE_VALID_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 3053 {(char *)"yywz", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((1 | SWIZZLE_VALID_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 3565 {(char *)"yyww", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((1 | SWIZZLE_VALID_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 4077 {(char *)"yz", (getter)Vector_swizzle_get, (setter)Vector_swizzle_set, NULL, SET_INT_IN_POINTER(((1 | SWIZZLE_VALID_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS)))}, // 53 {(char *)"yzx", (getter)Vector_swizzle_get, (setter)Vector_swizzle_set, NULL, SET_INT_IN_POINTER(((1 | SWIZZLE_VALID_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2))))}, // 309 {(char *)"yzxx", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((1 | SWIZZLE_VALID_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 2357 {(char *)"yzxy", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((1 | SWIZZLE_VALID_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 2869 {(char *)"yzxz", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((1 | SWIZZLE_VALID_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 3381 {(char *)"yzxw", (getter)Vector_swizzle_get, (setter)Vector_swizzle_set, NULL, SET_INT_IN_POINTER(((1 | SWIZZLE_VALID_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 3893 {(char *)"yzy", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((1 | SWIZZLE_VALID_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2))))}, // 373 {(char *)"yzyx", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((1 | SWIZZLE_VALID_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 2421 {(char *)"yzyy", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((1 | SWIZZLE_VALID_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 2933 {(char *)"yzyz", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((1 | SWIZZLE_VALID_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 3445 {(char *)"yzyw", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((1 | SWIZZLE_VALID_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 3957 {(char *)"yzz", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((1 | SWIZZLE_VALID_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2))))}, // 437 {(char *)"yzzx", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((1 | SWIZZLE_VALID_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 2485 {(char *)"yzzy", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((1 | SWIZZLE_VALID_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 2997 {(char *)"yzzz", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((1 | SWIZZLE_VALID_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 3509 {(char *)"yzzw", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((1 | SWIZZLE_VALID_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 4021 {(char *)"yzw", (getter)Vector_swizzle_get, (setter)Vector_swizzle_set, NULL, SET_INT_IN_POINTER(((1 | SWIZZLE_VALID_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2))))}, // 501 {(char *)"yzwx", (getter)Vector_swizzle_get, (setter)Vector_swizzle_set, NULL, SET_INT_IN_POINTER(((1 | SWIZZLE_VALID_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 2549 {(char *)"yzwy", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((1 | SWIZZLE_VALID_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 3061 {(char *)"yzwz", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((1 | SWIZZLE_VALID_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 3573 {(char *)"yzww", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((1 | SWIZZLE_VALID_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 4085 {(char *)"yw", (getter)Vector_swizzle_get, (setter)Vector_swizzle_set, NULL, SET_INT_IN_POINTER(((1 | SWIZZLE_VALID_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS)))}, // 61 {(char *)"ywx", (getter)Vector_swizzle_get, (setter)Vector_swizzle_set, NULL, SET_INT_IN_POINTER(((1 | SWIZZLE_VALID_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2))))}, // 317 {(char *)"ywxx", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((1 | SWIZZLE_VALID_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 2365 {(char *)"ywxy", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((1 | SWIZZLE_VALID_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 2877 {(char *)"ywxz", (getter)Vector_swizzle_get, (setter)Vector_swizzle_set, NULL, SET_INT_IN_POINTER(((1 | SWIZZLE_VALID_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 3389 {(char *)"ywxw", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((1 | SWIZZLE_VALID_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 3901 {(char *)"ywy", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((1 | SWIZZLE_VALID_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2))))}, // 381 {(char *)"ywyx", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((1 | SWIZZLE_VALID_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 2429 {(char *)"ywyy", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((1 | SWIZZLE_VALID_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 2941 {(char *)"ywyz", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((1 | SWIZZLE_VALID_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 3453 {(char *)"ywyw", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((1 | SWIZZLE_VALID_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 3965 {(char *)"ywz", (getter)Vector_swizzle_get, (setter)Vector_swizzle_set, NULL, SET_INT_IN_POINTER(((1 | SWIZZLE_VALID_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2))))}, // 445 {(char *)"ywzx", (getter)Vector_swizzle_get, (setter)Vector_swizzle_set, NULL, SET_INT_IN_POINTER(((1 | SWIZZLE_VALID_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 2493 {(char *)"ywzy", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((1 | SWIZZLE_VALID_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 3005 {(char *)"ywzz", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((1 | SWIZZLE_VALID_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 3517 {(char *)"ywzw", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((1 | SWIZZLE_VALID_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 4029 {(char *)"yww", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((1 | SWIZZLE_VALID_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2))))}, // 509 {(char *)"ywwx", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((1 | SWIZZLE_VALID_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 2557 {(char *)"ywwy", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((1 | SWIZZLE_VALID_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 3069 {(char *)"ywwz", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((1 | SWIZZLE_VALID_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 3581 {(char *)"ywww", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((1 | SWIZZLE_VALID_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 4093 {(char *)"zx", (getter)Vector_swizzle_get, (setter)Vector_swizzle_set, NULL, SET_INT_IN_POINTER(((2 | SWIZZLE_VALID_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS)))}, // 38 {(char *)"zxx", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((2 | SWIZZLE_VALID_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2))))}, // 294 {(char *)"zxxx", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((2 | SWIZZLE_VALID_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 2342 {(char *)"zxxy", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((2 | SWIZZLE_VALID_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 2854 {(char *)"zxxz", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((2 | SWIZZLE_VALID_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 3366 {(char *)"zxxw", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((2 | SWIZZLE_VALID_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 3878 {(char *)"zxy", (getter)Vector_swizzle_get, (setter)Vector_swizzle_set, NULL, SET_INT_IN_POINTER(((2 | SWIZZLE_VALID_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2))))}, // 358 {(char *)"zxyx", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((2 | SWIZZLE_VALID_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 2406 {(char *)"zxyy", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((2 | SWIZZLE_VALID_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 2918 {(char *)"zxyz", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((2 | SWIZZLE_VALID_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 3430 {(char *)"zxyw", (getter)Vector_swizzle_get, (setter)Vector_swizzle_set, NULL, SET_INT_IN_POINTER(((2 | SWIZZLE_VALID_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 3942 {(char *)"zxz", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((2 | SWIZZLE_VALID_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2))))}, // 422 {(char *)"zxzx", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((2 | SWIZZLE_VALID_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 2470 {(char *)"zxzy", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((2 | SWIZZLE_VALID_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 2982 {(char *)"zxzz", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((2 | SWIZZLE_VALID_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 3494 {(char *)"zxzw", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((2 | SWIZZLE_VALID_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 4006 {(char *)"zxw", (getter)Vector_swizzle_get, (setter)Vector_swizzle_set, NULL, SET_INT_IN_POINTER(((2 | SWIZZLE_VALID_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2))))}, // 486 {(char *)"zxwx", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((2 | SWIZZLE_VALID_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 2534 {(char *)"zxwy", (getter)Vector_swizzle_get, (setter)Vector_swizzle_set, NULL, SET_INT_IN_POINTER(((2 | SWIZZLE_VALID_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 3046 {(char *)"zxwz", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((2 | SWIZZLE_VALID_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 3558 {(char *)"zxww", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((2 | SWIZZLE_VALID_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 4070 {(char *)"zy", (getter)Vector_swizzle_get, (setter)Vector_swizzle_set, NULL, SET_INT_IN_POINTER(((2 | SWIZZLE_VALID_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS)))}, // 46 {(char *)"zyx", (getter)Vector_swizzle_get, (setter)Vector_swizzle_set, NULL, SET_INT_IN_POINTER(((2 | SWIZZLE_VALID_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2))))}, // 302 {(char *)"zyxx", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((2 | SWIZZLE_VALID_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 2350 {(char *)"zyxy", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((2 | SWIZZLE_VALID_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 2862 {(char *)"zyxz", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((2 | SWIZZLE_VALID_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 3374 {(char *)"zyxw", (getter)Vector_swizzle_get, (setter)Vector_swizzle_set, NULL, SET_INT_IN_POINTER(((2 | SWIZZLE_VALID_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 3886 {(char *)"zyy", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((2 | SWIZZLE_VALID_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2))))}, // 366 {(char *)"zyyx", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((2 | SWIZZLE_VALID_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 2414 {(char *)"zyyy", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((2 | SWIZZLE_VALID_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 2926 {(char *)"zyyz", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((2 | SWIZZLE_VALID_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 3438 {(char *)"zyyw", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((2 | SWIZZLE_VALID_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 3950 {(char *)"zyz", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((2 | SWIZZLE_VALID_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2))))}, // 430 {(char *)"zyzx", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((2 | SWIZZLE_VALID_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 2478 {(char *)"zyzy", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((2 | SWIZZLE_VALID_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 2990 {(char *)"zyzz", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((2 | SWIZZLE_VALID_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 3502 {(char *)"zyzw", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((2 | SWIZZLE_VALID_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 4014 {(char *)"zyw", (getter)Vector_swizzle_get, (setter)Vector_swizzle_set, NULL, SET_INT_IN_POINTER(((2 | SWIZZLE_VALID_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2))))}, // 494 {(char *)"zywx", (getter)Vector_swizzle_get, (setter)Vector_swizzle_set, NULL, SET_INT_IN_POINTER(((2 | SWIZZLE_VALID_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 2542 {(char *)"zywy", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((2 | SWIZZLE_VALID_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 3054 {(char *)"zywz", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((2 | SWIZZLE_VALID_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 3566 {(char *)"zyww", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((2 | SWIZZLE_VALID_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 4078 {(char *)"zz", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((2 | SWIZZLE_VALID_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS)))}, // 54 {(char *)"zzx", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((2 | SWIZZLE_VALID_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2))))}, // 310 {(char *)"zzxx", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((2 | SWIZZLE_VALID_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 2358 {(char *)"zzxy", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((2 | SWIZZLE_VALID_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 2870 {(char *)"zzxz", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((2 | SWIZZLE_VALID_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 3382 {(char *)"zzxw", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((2 | SWIZZLE_VALID_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 3894 {(char *)"zzy", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((2 | SWIZZLE_VALID_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2))))}, // 374 {(char *)"zzyx", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((2 | SWIZZLE_VALID_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 2422 {(char *)"zzyy", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((2 | SWIZZLE_VALID_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 2934 {(char *)"zzyz", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((2 | SWIZZLE_VALID_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 3446 {(char *)"zzyw", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((2 | SWIZZLE_VALID_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 3958 {(char *)"zzz", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((2 | SWIZZLE_VALID_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2))))}, // 438 {(char *)"zzzx", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((2 | SWIZZLE_VALID_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 2486 {(char *)"zzzy", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((2 | SWIZZLE_VALID_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 2998 {(char *)"zzzz", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((2 | SWIZZLE_VALID_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 3510 {(char *)"zzzw", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((2 | SWIZZLE_VALID_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 4022 {(char *)"zzw", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((2 | SWIZZLE_VALID_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2))))}, // 502 {(char *)"zzwx", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((2 | SWIZZLE_VALID_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 2550 {(char *)"zzwy", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((2 | SWIZZLE_VALID_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 3062 {(char *)"zzwz", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((2 | SWIZZLE_VALID_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 3574 {(char *)"zzww", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((2 | SWIZZLE_VALID_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 4086 {(char *)"zw", (getter)Vector_swizzle_get, (setter)Vector_swizzle_set, NULL, SET_INT_IN_POINTER(((2 | SWIZZLE_VALID_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS)))}, // 62 {(char *)"zwx", (getter)Vector_swizzle_get, (setter)Vector_swizzle_set, NULL, SET_INT_IN_POINTER(((2 | SWIZZLE_VALID_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2))))}, // 318 {(char *)"zwxx", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((2 | SWIZZLE_VALID_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 2366 {(char *)"zwxy", (getter)Vector_swizzle_get, (setter)Vector_swizzle_set, NULL, SET_INT_IN_POINTER(((2 | SWIZZLE_VALID_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 2878 {(char *)"zwxz", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((2 | SWIZZLE_VALID_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 3390 {(char *)"zwxw", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((2 | SWIZZLE_VALID_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 3902 {(char *)"zwy", (getter)Vector_swizzle_get, (setter)Vector_swizzle_set, NULL, SET_INT_IN_POINTER(((2 | SWIZZLE_VALID_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2))))}, // 382 {(char *)"zwyx", (getter)Vector_swizzle_get, (setter)Vector_swizzle_set, NULL, SET_INT_IN_POINTER(((2 | SWIZZLE_VALID_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 2430 {(char *)"zwyy", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((2 | SWIZZLE_VALID_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 2942 {(char *)"zwyz", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((2 | SWIZZLE_VALID_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 3454 {(char *)"zwyw", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((2 | SWIZZLE_VALID_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 3966 {(char *)"zwz", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((2 | SWIZZLE_VALID_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2))))}, // 446 {(char *)"zwzx", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((2 | SWIZZLE_VALID_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 2494 {(char *)"zwzy", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((2 | SWIZZLE_VALID_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 3006 {(char *)"zwzz", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((2 | SWIZZLE_VALID_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 3518 {(char *)"zwzw", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((2 | SWIZZLE_VALID_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 4030 {(char *)"zww", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((2 | SWIZZLE_VALID_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2))))}, // 510 {(char *)"zwwx", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((2 | SWIZZLE_VALID_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 2558 {(char *)"zwwy", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((2 | SWIZZLE_VALID_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 3070 {(char *)"zwwz", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((2 | SWIZZLE_VALID_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 3582 {(char *)"zwww", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((2 | SWIZZLE_VALID_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 4094 {(char *)"wx", (getter)Vector_swizzle_get, (setter)Vector_swizzle_set, NULL, SET_INT_IN_POINTER(((3 | SWIZZLE_VALID_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS)))}, // 39 {(char *)"wxx", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((3 | SWIZZLE_VALID_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2))))}, // 295 {(char *)"wxxx", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((3 | SWIZZLE_VALID_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 2343 {(char *)"wxxy", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((3 | SWIZZLE_VALID_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 2855 {(char *)"wxxz", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((3 | SWIZZLE_VALID_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 3367 {(char *)"wxxw", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((3 | SWIZZLE_VALID_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 3879 {(char *)"wxy", (getter)Vector_swizzle_get, (setter)Vector_swizzle_set, NULL, SET_INT_IN_POINTER(((3 | SWIZZLE_VALID_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2))))}, // 359 {(char *)"wxyx", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((3 | SWIZZLE_VALID_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 2407 {(char *)"wxyy", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((3 | SWIZZLE_VALID_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 2919 {(char *)"wxyz", (getter)Vector_swizzle_get, (setter)Vector_swizzle_set, NULL, SET_INT_IN_POINTER(((3 | SWIZZLE_VALID_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 3431 {(char *)"wxyw", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((3 | SWIZZLE_VALID_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 3943 {(char *)"wxz", (getter)Vector_swizzle_get, (setter)Vector_swizzle_set, NULL, SET_INT_IN_POINTER(((3 | SWIZZLE_VALID_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2))))}, // 423 {(char *)"wxzx", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((3 | SWIZZLE_VALID_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 2471 {(char *)"wxzy", (getter)Vector_swizzle_get, (setter)Vector_swizzle_set, NULL, SET_INT_IN_POINTER(((3 | SWIZZLE_VALID_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 2983 {(char *)"wxzz", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((3 | SWIZZLE_VALID_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 3495 {(char *)"wxzw", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((3 | SWIZZLE_VALID_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 4007 {(char *)"wxw", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((3 | SWIZZLE_VALID_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2))))}, // 487 {(char *)"wxwx", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((3 | SWIZZLE_VALID_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 2535 {(char *)"wxwy", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((3 | SWIZZLE_VALID_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 3047 {(char *)"wxwz", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((3 | SWIZZLE_VALID_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 3559 {(char *)"wxww", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((3 | SWIZZLE_VALID_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 4071 {(char *)"wy", (getter)Vector_swizzle_get, (setter)Vector_swizzle_set, NULL, SET_INT_IN_POINTER(((3 | SWIZZLE_VALID_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS)))}, // 47 {(char *)"wyx", (getter)Vector_swizzle_get, (setter)Vector_swizzle_set, NULL, SET_INT_IN_POINTER(((3 | SWIZZLE_VALID_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2))))}, // 303 {(char *)"wyxx", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((3 | SWIZZLE_VALID_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 2351 {(char *)"wyxy", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((3 | SWIZZLE_VALID_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 2863 {(char *)"wyxz", (getter)Vector_swizzle_get, (setter)Vector_swizzle_set, NULL, SET_INT_IN_POINTER(((3 | SWIZZLE_VALID_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 3375 {(char *)"wyxw", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((3 | SWIZZLE_VALID_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 3887 {(char *)"wyy", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((3 | SWIZZLE_VALID_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2))))}, // 367 {(char *)"wyyx", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((3 | SWIZZLE_VALID_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 2415 {(char *)"wyyy", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((3 | SWIZZLE_VALID_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 2927 {(char *)"wyyz", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((3 | SWIZZLE_VALID_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 3439 {(char *)"wyyw", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((3 | SWIZZLE_VALID_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 3951 {(char *)"wyz", (getter)Vector_swizzle_get, (setter)Vector_swizzle_set, NULL, SET_INT_IN_POINTER(((3 | SWIZZLE_VALID_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2))))}, // 431 {(char *)"wyzx", (getter)Vector_swizzle_get, (setter)Vector_swizzle_set, NULL, SET_INT_IN_POINTER(((3 | SWIZZLE_VALID_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 2479 {(char *)"wyzy", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((3 | SWIZZLE_VALID_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 2991 {(char *)"wyzz", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((3 | SWIZZLE_VALID_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 3503 {(char *)"wyzw", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((3 | SWIZZLE_VALID_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 4015 {(char *)"wyw", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((3 | SWIZZLE_VALID_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2))))}, // 495 {(char *)"wywx", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((3 | SWIZZLE_VALID_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 2543 {(char *)"wywy", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((3 | SWIZZLE_VALID_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 3055 {(char *)"wywz", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((3 | SWIZZLE_VALID_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 3567 {(char *)"wyww", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((3 | SWIZZLE_VALID_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 4079 {(char *)"wz", (getter)Vector_swizzle_get, (setter)Vector_swizzle_set, NULL, SET_INT_IN_POINTER(((3 | SWIZZLE_VALID_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS)))}, // 55 {(char *)"wzx", (getter)Vector_swizzle_get, (setter)Vector_swizzle_set, NULL, SET_INT_IN_POINTER(((3 | SWIZZLE_VALID_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2))))}, // 311 {(char *)"wzxx", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((3 | SWIZZLE_VALID_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 2359 {(char *)"wzxy", (getter)Vector_swizzle_get, (setter)Vector_swizzle_set, NULL, SET_INT_IN_POINTER(((3 | SWIZZLE_VALID_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 2871 {(char *)"wzxz", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((3 | SWIZZLE_VALID_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 3383 {(char *)"wzxw", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((3 | SWIZZLE_VALID_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 3895 {(char *)"wzy", (getter)Vector_swizzle_get, (setter)Vector_swizzle_set, NULL, SET_INT_IN_POINTER(((3 | SWIZZLE_VALID_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2))))}, // 375 {(char *)"wzyx", (getter)Vector_swizzle_get, (setter)Vector_swizzle_set, NULL, SET_INT_IN_POINTER(((3 | SWIZZLE_VALID_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 2423 {(char *)"wzyy", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((3 | SWIZZLE_VALID_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 2935 {(char *)"wzyz", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((3 | SWIZZLE_VALID_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 3447 {(char *)"wzyw", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((3 | SWIZZLE_VALID_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 3959 {(char *)"wzz", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((3 | SWIZZLE_VALID_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2))))}, // 439 {(char *)"wzzx", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((3 | SWIZZLE_VALID_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 2487 {(char *)"wzzy", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((3 | SWIZZLE_VALID_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 2999 {(char *)"wzzz", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((3 | SWIZZLE_VALID_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 3511 {(char *)"wzzw", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((3 | SWIZZLE_VALID_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 4023 {(char *)"wzw", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((3 | SWIZZLE_VALID_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2))))}, // 503 {(char *)"wzwx", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((3 | SWIZZLE_VALID_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 2551 {(char *)"wzwy", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((3 | SWIZZLE_VALID_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 3063 {(char *)"wzwz", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((3 | SWIZZLE_VALID_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 3575 {(char *)"wzww", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((3 | SWIZZLE_VALID_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 4087 {(char *)"ww", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((3 | SWIZZLE_VALID_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS)))}, // 63 {(char *)"wwx", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((3 | SWIZZLE_VALID_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2))))}, // 319 {(char *)"wwxx", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((3 | SWIZZLE_VALID_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 2367 {(char *)"wwxy", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((3 | SWIZZLE_VALID_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 2879 {(char *)"wwxz", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((3 | SWIZZLE_VALID_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 3391 {(char *)"wwxw", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((3 | SWIZZLE_VALID_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 3903 {(char *)"wwy", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((3 | SWIZZLE_VALID_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2))))}, // 383 {(char *)"wwyx", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((3 | SWIZZLE_VALID_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 2431 {(char *)"wwyy", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((3 | SWIZZLE_VALID_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 2943 {(char *)"wwyz", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((3 | SWIZZLE_VALID_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 3455 {(char *)"wwyw", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((3 | SWIZZLE_VALID_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 3967 {(char *)"wwz", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((3 | SWIZZLE_VALID_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2))))}, // 447 {(char *)"wwzx", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((3 | SWIZZLE_VALID_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 2495 {(char *)"wwzy", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((3 | SWIZZLE_VALID_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 3007 {(char *)"wwzz", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((3 | SWIZZLE_VALID_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 3519 {(char *)"wwzw", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((3 | SWIZZLE_VALID_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 4031 {(char *)"www", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((3 | SWIZZLE_VALID_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2))))}, // 511 {(char *)"wwwx", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((3 | SWIZZLE_VALID_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((0 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 2559 {(char *)"wwwy", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((3 | SWIZZLE_VALID_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((1 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 3071 {(char *)"wwwz", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((3 | SWIZZLE_VALID_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((2 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 3583 {(char *)"wwww", (getter)Vector_swizzle_get, (setter)NULL, NULL, SET_INT_IN_POINTER(((3 | SWIZZLE_VALID_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << SWIZZLE_BITS_PER_AXIS) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 2)) | ((3 | SWIZZLE_VALID_AXIS) << (SWIZZLE_BITS_PER_AXIS * 3))) )}, // 4095 {NULL, NULL, NULL, NULL, NULL} /* Sentinel */ }; /* Python script used to make swizzle array */ /* SWIZZLE_BITS_PER_AXIS = 3 SWIZZLE_VALID_AXIS = 0x4 axis_dict = {} axis_pos = {'x':0, 'y':1, 'z':2, 'w':3} axises = 'xyzw' while len(axises) >= 2: for axis_0 in axises: axis_0_pos = axis_pos[axis_0] for axis_1 in axises: axis_1_pos = axis_pos[axis_1] axis_dict[axis_0 + axis_1] = '((%s|SWIZZLE_VALID_AXIS) | ((%s|SWIZZLE_VALID_AXIS)<2: for axis_2 in axises: axis_2_pos = axis_pos[axis_2] axis_dict[axis_0 + axis_1 + axis_2] = '((%s|SWIZZLE_VALID_AXIS) | ((%s|SWIZZLE_VALID_AXIS)<3: for axis_3 in axises: axis_3_pos = axis_pos[axis_3] axis_dict[axis_0 + axis_1 + axis_2 + axis_3] = '((%s|SWIZZLE_VALID_AXIS) | ((%s|SWIZZLE_VALID_AXIS)<size; if (mat->num_row != vec_size) { if (mat->num_row == 4 && vec_size == 3) { vec_cpy[3] = 1.0f; } else { PyErr_SetString(PyExc_ValueError, "vector * matrix: matrix column size " "and the vector size must be the same"); return -1; } } if (BaseMath_ReadCallback(vec) == -1 || BaseMath_ReadCallback(mat) == -1) return -1; memcpy(vec_cpy, vec->vec, vec_size * sizeof(float)); r_vec[3] = 1.0f; /* muliplication */ for (col = 0; col < mat->num_col; col++) { double dot = 0.0; for (row = 0; row < mat->num_row; row++) { dot += (double)(MATRIX_ITEM(mat, row, col) * vec_cpy[row]); } r_vec[z++] = (float)dot; } return 0; } /*----------------------------Vector.negate() -------------------- */ PyDoc_STRVAR(Vector_negate_doc, ".. method:: negate()\n" "\n" " Set all values to their negative.\n" ); static PyObject *Vector_negate(VectorObject *self) { if (BaseMath_ReadCallback(self) == -1) return NULL; negate_vn(self->vec, self->size); (void)BaseMath_WriteCallback(self); /* already checked for error */ Py_RETURN_NONE; } static struct PyMethodDef Vector_methods[] = { /* Class Methods */ {"Fill", (PyCFunction) C_Vector_Fill, METH_VARARGS | METH_CLASS, C_Vector_Fill_doc}, {"Range", (PyCFunction) C_Vector_Range, METH_VARARGS | METH_CLASS, C_Vector_Range_doc}, {"Linspace", (PyCFunction) C_Vector_Linspace, METH_VARARGS | METH_CLASS, C_Vector_Linspace_doc}, {"Repeat", (PyCFunction) C_Vector_Repeat, METH_VARARGS | METH_CLASS, C_Vector_Repeat_doc}, /* in place only */ {"zero", (PyCFunction) Vector_zero, METH_NOARGS, Vector_zero_doc}, {"negate", (PyCFunction) Vector_negate, METH_NOARGS, Vector_negate_doc}, /* operate on original or copy */ {"normalize", (PyCFunction) Vector_normalize, METH_NOARGS, Vector_normalize_doc}, {"normalized", (PyCFunction) Vector_normalized, METH_NOARGS, Vector_normalized_doc}, {"resize", (PyCFunction) Vector_resize, METH_O, Vector_resize_doc}, {"resized", (PyCFunction) Vector_resized, METH_O, Vector_resized_doc}, {"to_2d", (PyCFunction) Vector_to_2d, METH_NOARGS, Vector_to_2d_doc}, {"resize_2d", (PyCFunction) Vector_resize_2d, METH_NOARGS, Vector_resize_2d_doc}, {"to_3d", (PyCFunction) Vector_to_3d, METH_NOARGS, Vector_to_3d_doc}, {"resize_3d", (PyCFunction) Vector_resize_3d, METH_NOARGS, Vector_resize_3d_doc}, {"to_4d", (PyCFunction) Vector_to_4d, METH_NOARGS, Vector_to_4d_doc}, {"resize_4d", (PyCFunction) Vector_resize_4d, METH_NOARGS, Vector_resize_4d_doc}, {"to_tuple", (PyCFunction) Vector_to_tuple, METH_VARARGS, Vector_to_tuple_doc}, {"to_track_quat", (PyCFunction) Vector_to_track_quat, METH_VARARGS, Vector_to_track_quat_doc}, {"orthogonal", (PyCFunction) Vector_orthogonal, METH_NOARGS, Vector_orthogonal_doc}, /* operation between 2 or more types */ {"reflect", (PyCFunction) Vector_reflect, METH_O, Vector_reflect_doc}, {"cross", (PyCFunction) Vector_cross, METH_O, Vector_cross_doc}, {"dot", (PyCFunction) Vector_dot, METH_O, Vector_dot_doc}, {"angle", (PyCFunction) Vector_angle, METH_VARARGS, Vector_angle_doc}, {"angle_signed", (PyCFunction) Vector_angle_signed, METH_VARARGS, Vector_angle_signed_doc}, {"rotation_difference", (PyCFunction) Vector_rotation_difference, METH_O, Vector_rotation_difference_doc}, {"project", (PyCFunction) Vector_project, METH_O, Vector_project_doc}, {"lerp", (PyCFunction) Vector_lerp, METH_VARARGS, Vector_lerp_doc}, {"slerp", (PyCFunction) Vector_slerp, METH_VARARGS, Vector_slerp_doc}, {"rotate", (PyCFunction) Vector_rotate, METH_O, Vector_rotate_doc}, {"copy", (PyCFunction) Vector_copy, METH_NOARGS, Vector_copy_doc}, {"__copy__", (PyCFunction) Vector_copy, METH_NOARGS, NULL}, {"__deepcopy__", (PyCFunction) Vector_deepcopy, METH_VARARGS, NULL}, {NULL, NULL, 0, NULL} }; /* Note * Py_TPFLAGS_CHECKTYPES allows us to avoid casting all types to Vector when coercing * but this means for eg that * (vec * mat) and (mat * vec) both get sent to Vector_mul and it needs to sort out the order */ PyDoc_STRVAR(vector_doc, "This object gives access to Vectors in Blender." ); PyTypeObject vector_Type = { PyVarObject_HEAD_INIT(NULL, 0) /* For printing, in format "." */ "Vector", /* char *tp_name; */ sizeof(VectorObject), /* int tp_basicsize; */ 0, /* tp_itemsize; For allocation */ /* Methods to implement standard operations */ (destructor) BaseMathObject_dealloc, /* destructor tp_dealloc; */ NULL, /* printfunc tp_print; */ NULL, /* getattrfunc tp_getattr; */ NULL, /* setattrfunc tp_setattr; */ NULL, /* cmpfunc tp_compare; */ (reprfunc)Vector_repr, /* reprfunc tp_repr; */ /* Method suites for standard classes */ &Vector_NumMethods, /* PyNumberMethods *tp_as_number; */ &Vector_SeqMethods, /* PySequenceMethods *tp_as_sequence; */ &Vector_AsMapping, /* PyMappingMethods *tp_as_mapping; */ /* More standard operations (here for binary compatibility) */ NULL, /* hashfunc tp_hash; */ NULL, /* ternaryfunc tp_call; */ #ifndef MATH_STANDALONE (reprfunc)Vector_str, /* reprfunc tp_str; */ #else NULL, /* reprfunc tp_str; */ #endif NULL, /* getattrofunc tp_getattro; */ NULL, /* setattrofunc tp_setattro; */ /* Functions to access object as input/output buffer */ NULL, /* PyBufferProcs *tp_as_buffer; */ /*** Flags to define presence of optional/expanded features ***/ Py_TPFLAGS_DEFAULT | Py_TPFLAGS_BASETYPE | Py_TPFLAGS_HAVE_GC, vector_doc, /* char *tp_doc; Documentation string */ /*** Assigned meaning in release 2.0 ***/ /* call function for all accessible objects */ (traverseproc)BaseMathObject_traverse, /* tp_traverse */ /* delete references to contained objects */ (inquiry)BaseMathObject_clear, /* tp_clear */ /*** Assigned meaning in release 2.1 ***/ /*** rich comparisons ***/ (richcmpfunc)Vector_richcmpr, /* richcmpfunc tp_richcompare; */ /*** weak reference enabler ***/ 0, /* long tp_weaklistoffset; */ /*** Added in release 2.2 ***/ /* Iterators */ NULL, /* getiterfunc tp_iter; */ NULL, /* iternextfunc tp_iternext; */ /*** Attribute descriptor and subclassing stuff ***/ Vector_methods, /* struct PyMethodDef *tp_methods; */ NULL, /* struct PyMemberDef *tp_members; */ Vector_getseters, /* struct PyGetSetDef *tp_getset; */ NULL, /* struct _typeobject *tp_base; */ NULL, /* PyObject *tp_dict; */ NULL, /* descrgetfunc tp_descr_get; */ NULL, /* descrsetfunc tp_descr_set; */ 0, /* long tp_dictoffset; */ NULL, /* initproc tp_init; */ NULL, /* allocfunc tp_alloc; */ Vector_new, /* newfunc tp_new; */ /* Low-level free-memory routine */ NULL, /* freefunc tp_free; */ /* For PyObject_IS_GC */ NULL, /* inquiry tp_is_gc; */ NULL, /* PyObject *tp_bases; */ /* method resolution order */ NULL, /* PyObject *tp_mro; */ NULL, /* PyObject *tp_cache; */ NULL, /* PyObject *tp_subclasses; */ NULL, /* PyObject *tp_weaklist; */ NULL }; /*------------------------Vector_CreatePyObject (internal)------------- * creates a new vector object * pass Py_WRAP - if vector is a WRAPPER for data allocated by BLENDER * (i.e. it was allocated elsewhere by MEM_mallocN()) * pass Py_NEW - if vector is not a WRAPPER and managed by PYTHON * (i.e. it must be created here with PyMEM_malloc())*/ PyObject *Vector_CreatePyObject(float *vec, const int size, const int type, PyTypeObject *base_type) { VectorObject *self; if (size < 2) { PyErr_SetString(PyExc_RuntimeError, "Vector(): invalid size"); return NULL; } self = base_type ? (VectorObject *)base_type->tp_alloc(base_type, 0) : (VectorObject *)PyObject_GC_New(VectorObject, &vector_Type); if (self) { self->size = size; /* init callbacks as NULL */ self->cb_user = NULL; self->cb_type = self->cb_subtype = 0; if (type == Py_WRAP) { self->vec = vec; self->wrapped = Py_WRAP; } else if (type == Py_NEW) { self->vec = PyMem_Malloc(size * sizeof(float)); if (vec) { memcpy(self->vec, vec, size * sizeof(float)); } else { /* new empty */ fill_vn_fl(self->vec, size, 0.0f); if (size == 4) { /* do the homogeneous thing */ self->vec[3] = 1.0f; } } self->wrapped = Py_NEW; } else { Py_FatalError("Vector(): invalid type!"); } } return (PyObject *) self; } PyObject *Vector_CreatePyObject_cb(PyObject *cb_user, int size, unsigned char cb_type, unsigned char cb_subtype) { float dummy[4] = {0.0, 0.0, 0.0, 0.0}; /* dummy init vector, callbacks will be used on access */ VectorObject *self = (VectorObject *)Vector_CreatePyObject(dummy, size, Py_NEW, NULL); if (self) { Py_INCREF(cb_user); self->cb_user = cb_user; self->cb_type = cb_type; self->cb_subtype = cb_subtype; PyObject_GC_Track(self); } return (PyObject *)self; } PyObject *Vector_CreatePyObject_alloc(const float *vec, const int size, PyTypeObject *base_type) { VectorObject *vect_ob; vect_ob = (VectorObject *)Vector_CreatePyObject((float *)vec, size, Py_WRAP, base_type); vect_ob->wrapped = Py_NEW; return (PyObject *)vect_ob; }