diff options
Diffstat (limited to 'source/blender/python/api2_2x/CurNurb.c')
-rw-r--r-- | source/blender/python/api2_2x/CurNurb.c | 1146 |
1 files changed, 0 insertions, 1146 deletions
diff --git a/source/blender/python/api2_2x/CurNurb.c b/source/blender/python/api2_2x/CurNurb.c deleted file mode 100644 index 63a1dccbc50..00000000000 --- a/source/blender/python/api2_2x/CurNurb.c +++ /dev/null @@ -1,1146 +0,0 @@ -/* - * $Id$ - * ***** 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., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. - * - * The Original Code is Copyright (C) 2001-2002 by NaN Holding BV. - * All rights reserved. - * - * This is a new part of Blender. - * - * Contributor(s): Stephen Swaney, Campbell Barton, Ken Hughes - * - * ***** END GPL LICENSE BLOCK ***** - */ - -#include "CurNurb.h" /*This must come first */ - -#include "BKE_curve.h" -#include "BDR_editcurve.h" /* for convertspline */ -#include "MEM_guardedalloc.h" -#include "gen_utils.h" -#include "BezTriple.h" - -#include "BKE_utildefines.h" - -/* Only for ME_SMOOTH */ -#include "DNA_meshdata_types.h" - -/* - * forward declarations go here - */ - -static PyObject *M_CurNurb_New( PyObject * self, PyObject * args ); -static PyObject *CurNurb_oldsetMatIndex( BPy_CurNurb * self, PyObject * args ); -static int CurNurb_setMatIndex( BPy_CurNurb * self, PyObject * args ); -static PyObject *CurNurb_getMatIndex( BPy_CurNurb * self ); -static PyObject *CurNurb_getFlagU( BPy_CurNurb * self ); -static PyObject *CurNurb_oldsetFlagU( BPy_CurNurb * self, PyObject * args ); -static int CurNurb_setFlagU( BPy_CurNurb * self, PyObject * args ); -static PyObject *CurNurb_getFlagV( BPy_CurNurb * self ); -static PyObject *CurNurb_oldsetFlagV( BPy_CurNurb * self, PyObject * args ); -static int CurNurb_setFlagV( BPy_CurNurb * self, PyObject * args ); -static PyObject *CurNurb_getOrderU( BPy_CurNurb * self ); -static int CurNurb_setOrderU( BPy_CurNurb * self, PyObject * args ); -static PyObject *CurNurb_getType( BPy_CurNurb * self ); -static PyObject *CurNurb_oldsetType( BPy_CurNurb * self, PyObject * args ); -static int CurNurb_setType( BPy_CurNurb * self, PyObject * args ); -static PyObject *CurNurb_getKnotsU( BPy_CurNurb * self ); -static PyObject *CurNurb_getKnotsV( BPy_CurNurb * self ); -static PyObject *CurNurb_getPoints( BPy_CurNurb * self ); -/* static PyObject* CurNurb_setXXX( BPy_CurNurb* self, PyObject* args ); */ -static int CurNurb_setPoint( BPy_CurNurb * self, int index, PyObject * ob ); -static int CurNurb_length( PyInstanceObject * inst ); -static PyObject *CurNurb_getIter( BPy_CurNurb * self ); -static PyObject *CurNurb_iterNext( BPy_CurNurb * self ); -PyObject *CurNurb_append( BPy_CurNurb * self, PyObject * value ); - -static PyObject *CurNurb_isNurb( BPy_CurNurb * self ); -static PyObject *CurNurb_isCyclic( BPy_CurNurb * self ); -static PyObject *CurNurb_dump( BPy_CurNurb * self ); -static PyObject *CurNurb_switchDirection( BPy_CurNurb * self ); -static PyObject *CurNurb_recalc( BPy_CurNurb * self ); -static PyObject *CurNurb_getFlagBits( BPy_CurNurb * self, void *type ); -static int CurNurb_setFlagBits( BPy_CurNurb * self, PyObject *value, void *type ); -char M_CurNurb_doc[] = "CurNurb"; - - -/* - CurNurb_Type callback function prototypes: -*/ - -static int CurNurb_compare( BPy_CurNurb * a, BPy_CurNurb * b ); -static PyObject *CurNurb_repr( BPy_CurNurb * self ); - -/* - table of module methods - these are the equivalent of class or static methods. - you do not need an object instance to call one. - -*/ - -static PyMethodDef M_CurNurb_methods[] = { -/* name, method, flags, doc_string */ - {"New", ( PyCFunction ) M_CurNurb_New, METH_VARARGS | METH_KEYWORDS, - " () - doc string"}, -/* {"Get", (PyCFunction) M_CurNurb_method, METH_NOARGS, " () - doc string"}, */ -/* {"method", (PyCFunction) M_CurNurb_method, METH_NOARGS, " () - doc string"}, */ - - {NULL, NULL, 0, NULL} -}; - - - -/* - * method table - * table of instance methods - * these methods are invoked on an instance of the type. -*/ - -static PyMethodDef BPy_CurNurb_methods[] = { -/* name, method, flags, doc */ -/* {"method", (PyCFunction) CurNurb_method, METH_NOARGS, " () - doc string"} */ - {"setMatIndex", ( PyCFunction ) CurNurb_oldsetMatIndex, METH_VARARGS, - "( index ) - set index into materials list"}, - {"getMatIndex", ( PyCFunction ) CurNurb_getMatIndex, METH_NOARGS, - "( ) - get current material index"}, - {"setFlagU", ( PyCFunction ) CurNurb_oldsetFlagU, METH_VARARGS, - "( index ) - set flagU and recalculate the knots (0: uniform, 1: endpoints, 2: bezier)"}, - {"getFlagU", ( PyCFunction ) CurNurb_getFlagU, METH_NOARGS, - "( ) - get flagU of the knots"}, - {"setFlagV", ( PyCFunction ) CurNurb_oldsetFlagV, METH_VARARGS, - "( index ) - set flagV and recalculate the knots (0: uniform, 1: endpoints, 2: bezier)"}, - {"getFlagV", ( PyCFunction ) CurNurb_getFlagV, METH_NOARGS, - "( ) - get flagV of the knots"}, - {"setType", ( PyCFunction ) CurNurb_oldsetType, METH_VARARGS, - "( type ) - change the type of the curve (Poly: 0, Bezier: 1, NURBS: 4)"}, - {"getType", ( PyCFunction ) CurNurb_getType, METH_NOARGS, - "( ) - get the type of the curve (Poly: 0, Bezier: 1, NURBS: 4)"}, - {"append", ( PyCFunction ) CurNurb_append, METH_O, - "( point ) - add a new point. arg is BezTriple or list of x,y,z,w floats"}, - {"isNurb", ( PyCFunction ) CurNurb_isNurb, METH_NOARGS, - "( ) - boolean function tests if this spline is type nurb or bezier"}, - {"isCyclic", ( PyCFunction ) CurNurb_isCyclic, METH_NOARGS, - "( ) - boolean function tests if this spline is cyclic (closed) or not (open)"}, - {"dump", ( PyCFunction ) CurNurb_dump, METH_NOARGS, - "( ) - dumps Nurb data)"}, - {"switchDirection", ( PyCFunction ) CurNurb_switchDirection, METH_NOARGS, - "( ) - swaps curve beginning and end)"}, - {"recalc", ( PyCFunction ) CurNurb_recalc, METH_NOARGS, - "( ) - recalc Nurb data)"}, - {NULL, NULL, 0, NULL} -}; - -/* - * methods for CurNurb as sequece - */ - -static PySequenceMethods CurNurb_as_sequence = { - ( inquiry ) CurNurb_length, /* sq_length */ - ( binaryfunc ) 0, /* sq_concat */ - ( intargfunc ) 0, /* sq_repeat */ - ( intargfunc ) CurNurb_getPoint, /* sq_item */ - ( intintargfunc ) 0, /* sq_slice */ - ( intobjargproc ) CurNurb_setPoint, /* sq_ass_item */ - 0, /* sq_ass_slice */ - ( objobjproc ) 0, /* sq_contains */ - 0, - 0 -}; - -static PyGetSetDef BPy_CurNurb_getseters[] = { - {"mat_index", - (getter)CurNurb_getMatIndex, (setter)CurNurb_setMatIndex, - "CurNurb's material index", - NULL}, - {"points", - (getter)CurNurb_getPoints, (setter)NULL, - "The number of curve points", - NULL}, - {"flagU", - (getter)CurNurb_getFlagU, (setter)CurNurb_setFlagU, - "The knot type in the U direction", - NULL}, - {"flagV", - (getter)CurNurb_getFlagV, (setter)CurNurb_setFlagV, - "The knot type in the V direction", - NULL}, - {"orderU", - (getter)CurNurb_getOrderU, (setter)CurNurb_setOrderU, - "order setting for U direction", NULL}, - {"type", - (getter)CurNurb_getType, (setter)CurNurb_setType, - "The curve type (poly: bezier, or NURBS)", - NULL}, - {"knotsU", - (getter)CurNurb_getKnotsU, (setter)NULL, - "The The knot vector in the U direction", - NULL}, - {"knotsV", - (getter)CurNurb_getKnotsV, (setter)NULL, - "The The knot vector in the V direction", - NULL}, - {"smooth", - (getter)CurNurb_getFlagBits, (setter)CurNurb_setFlagBits, - "The smooth bool setting", - (void *)ME_SMOOTH}, - {NULL,NULL,NULL,NULL,NULL} /* Sentinel */ -}; - -/* - Object Type definition - full blown 2.3 struct - if you are having trouble building with an earlier version of python, - this is why. -*/ - -PyTypeObject CurNurb_Type = { - PyObject_HEAD_INIT( NULL ) /* required py macro */ - 0, /* ob_size */ - /* For printing, in format "<module>.<name>" */ - "CurNurb", /* char *tp_name; */ - sizeof( CurNurb_Type ), /* int tp_basicsize, */ - 0, /* tp_itemsize; For allocation */ - - /* Methods to implement standard operations */ - - NULL, /* destructor tp_dealloc; */ - NULL, /* printfunc tp_print; */ - NULL, /* getattrfunc tp_getattr; */ - NULL, /* setattrfunc tp_setattr; */ - ( cmpfunc ) CurNurb_compare, /* cmpfunc tp_compare; */ - ( reprfunc ) CurNurb_repr, /* reprfunc tp_repr; */ - - /* Method suites for standard classes */ - - 0, /* PyNumberMethods *tp_as_number; */ - &CurNurb_as_sequence, /* PySequenceMethods *tp_as_sequence; */ - 0, /* PyMappingMethods *tp_as_mapping; */ - - /* More standard operations (here for binary compatibility) */ - - 0, /* hashfunc tp_hash; */ - 0, /* ternaryfunc tp_call; */ - 0, /* reprfunc tp_str; */ - 0, /* getattrofunc tp_getattro; */ - 0, /* setattrofunc tp_setattro; */ - - /* Functions to access object as input/output buffer */ - 0, /* PyBufferProcs *tp_as_buffer; */ - - /*** Flags to define presence of optional/expanded features ***/ - Py_TPFLAGS_DEFAULT, /* long tp_flags; */ - - 0, /* char *tp_doc; Documentation string */ - /*** Assigned meaning in release 2.0 ***/ - /* call function for all accessible objects */ - 0, /* traverseproc tp_traverse; */ - - /* delete references to contained objects */ - 0, /* inquiry tp_clear; */ - - /*** Assigned meaning in release 2.1 ***/ - /*** rich comparisons ***/ - 0, /* richcmpfunc tp_richcompare; */ - - /*** weak reference enabler ***/ - 0, /* long tp_weaklistoffset; */ - - /*** Added in release 2.2 ***/ - /* Iterators */ - ( getiterfunc ) CurNurb_getIter, /* getiterfunc tp_iter; */ - ( iternextfunc ) CurNurb_iterNext, /* iternextfunc tp_iternext; */ - - /*** Attribute descriptor and subclassing stuff ***/ - BPy_CurNurb_methods, /* struct PyMethodDef *tp_methods; */ - 0, /* struct PyMemberDef *tp_members; */ - BPy_CurNurb_getseters, /* struct PyGetSetDef *tp_getset; */ - 0, /* struct _typeobject *tp_base; */ - 0, /* PyObject *tp_dict; */ - 0, /* descrgetfunc tp_descr_get; */ - 0, /* descrsetfunc tp_descr_set; */ - 0, /* long tp_dictoffset; */ - 0, /* initproc tp_init; */ - 0, /* allocfunc tp_alloc; */ - 0, /* newfunc tp_new; */ - /* Low-level free-memory routine */ - 0, /* freefunc tp_free; */ - /* For PyObject_IS_GC */ - 0, /* inquiry tp_is_gc; */ - 0, /* PyObject *tp_bases; */ - /* method resolution order */ - 0, /* PyObject *tp_mro; */ - 0, /* PyObject *tp_cache; */ - 0, /* PyObject *tp_subclasses; */ - 0, /* PyObject *tp_weaklist; */ - 0 -}; - -/* - compare - in this case, we consider two CurNurbs equal, if they point to the same - blender data. -*/ - -static int CurNurb_compare( BPy_CurNurb * a, BPy_CurNurb * b ) -{ - Nurb *pa = a->nurb; - Nurb *pb = b->nurb; - - return ( pa == pb ) ? 0 : -1; -} - - -/* - factory method to create a BPy_CurNurb from a Blender Nurb -*/ - -PyObject *CurNurb_CreatePyObject( Nurb * blen_nurb ) -{ - BPy_CurNurb *pyNurb; - - pyNurb = ( BPy_CurNurb * ) PyObject_NEW( BPy_CurNurb, &CurNurb_Type ); - - if( !pyNurb ) - return EXPP_ReturnPyObjError( PyExc_MemoryError, - "could not create BPy_CurNurb PyObject" ); - - pyNurb->nurb = blen_nurb; - return ( PyObject * ) pyNurb; -} - - -/* - * CurNurb_repr - */ -static PyObject *CurNurb_repr( BPy_CurNurb * self ) -{ /* used by 'repr' */ - - return PyString_FromFormat( "[CurNurb \"%d\"]", self->nurb->type ); -} - -/* XXX Can't this be simply removed? */ -static PyObject *M_CurNurb_New( PyObject * self, PyObject * args ) -{ - return ( PyObject * ) 0; - -} - -/* - * Curve.getType - */ -static PyObject *CurNurb_getType( BPy_CurNurb * self ) -{ - /* type is on 3 first bits only */ - return PyInt_FromLong( self->nurb->type & 7 ); -} - -/* - * Curve.setType - * - * Convert the curve using Blender's convertspline fonction - */ -static int CurNurb_setType( BPy_CurNurb * self, PyObject * args ) -{ - PyObject* integer = PyNumber_Int( args ); - short value; - - if( !integer ) - return EXPP_ReturnIntError( PyExc_TypeError, - "expected integer argument" ); - - value = ( short )PyInt_AS_LONG( integer ); - Py_DECREF( integer ); - - /* parameter value checking */ - if (value != CU_POLY && value != CU_BEZIER && value != CU_NURBS) - return EXPP_ReturnIntError( PyExc_ValueError, - "expected integer argument" ); - - /* convert and raise error if impossible */ - if (convertspline(value, self->nurb)) - return EXPP_ReturnIntError( PyExc_ValueError, - "Conversion Impossible" ); - - return 0; -} - -/* - * CurNurb_getKnotsU - * - * returns curve's knotsU in a tuple. Empty tuple is returned if curve - * isn't Nurbs or it doesn't have knots in U - */ - -static PyObject *CurNurb_getKnotsU( BPy_CurNurb * self ) -{ - if(self->nurb->knotsu) { - int len = KNOTSU(self->nurb); - int i; - PyObject *knotsu = PyTuple_New(len); - if( !knotsu ) - return EXPP_ReturnPyObjError( PyExc_RuntimeError, - "could not get CurNurb.knotsU attribute" ); - - for(i = 0; i < len; ++i) - PyTuple_SetItem(knotsu, i, - PyFloat_FromDouble(self->nurb->knotsu[i])); - - return knotsu; - } - return PyTuple_New(0); -} - -/* - * CurNurb_getKnotsV - * - * returns curve's knotsV in a tuple. Empty tuple is returned if curve doesn't have knots in V - */ - -static PyObject *CurNurb_getKnotsV( BPy_CurNurb * self ) -{ - if(self->nurb->knotsv) { - int len = KNOTSV(self->nurb); - int i; - PyObject *knotsv = PyTuple_New(len); - if( !knotsv ) - return EXPP_ReturnPyObjError( PyExc_RuntimeError, - "could not get CurNurb.knotsV index" ); - - for(i = 0; i < len; ++i) - PyTuple_SetItem(knotsv, i, - PyFloat_FromDouble(self->nurb->knotsv[i] )); - - return knotsv; - } - return PyTuple_New(0); -} - -static PyObject *CurNurb_getPoints( BPy_CurNurb * self ) -{ - return PyInt_FromLong( ( long ) self->nurb->pntsu ); -} - -static PyObject *CurNurb_getFlagBits( BPy_CurNurb * self, void *type ) -{ - return EXPP_getBitfield( (void *)&self->nurb->flag, - GET_INT_FROM_POINTER(type), 'h' ); -} - -static int CurNurb_setFlagBits( BPy_CurNurb * self, PyObject *value, - void *type ) -{ - return EXPP_setBitfield( value, (void *)&self->nurb->flag, - GET_INT_FROM_POINTER(type), 'h' ); -} - -/* - * CurNurb_append( point ) - * append a new point to a nurb curve. - * arg is BezTriple or list of xyzw floats - */ - -PyObject *CurNurb_append( BPy_CurNurb * self, PyObject * value ) -{ - return CurNurb_appendPointToNurb( self->nurb, value ); -} - - -/* - * CurNurb_appendPointToNurb - * this is a non-bpy utility func to add a point to a given nurb. - * notice the first arg is Nurb*. - */ - -PyObject *CurNurb_appendPointToNurb( Nurb * nurb, PyObject * value ) -{ - - int i; - int size; - int npoints = nurb->pntsu; - - /* - do we have a list of four floats or a BezTriple? - */ - - /* if curve is empty, adjust type depending on input type */ - if (nurb->bezt==NULL && nurb->bp==NULL) { - if (BPy_BezTriple_Check( value )) - nurb->type |= CU_BEZIER; - else if (PySequence_Check( value )) - nurb->type |= CU_NURBS; - else - return( EXPP_ReturnPyObjError( PyExc_TypeError, - "Expected a BezTriple or a Sequence of 4 (or 5) floats" ) ); - } - - - - if ((nurb->type & 7)==CU_BEZIER) { - BezTriple *tmp; - - if( !BPy_BezTriple_Check( value ) ) - return( EXPP_ReturnPyObjError( PyExc_TypeError, - "Expected a BezTriple\n" ) ); - -/* printf("\ndbg: got a BezTriple\n"); */ - tmp = nurb->bezt; /* save old points */ - nurb->bezt = - ( BezTriple * ) MEM_mallocN( sizeof( BezTriple ) * - ( npoints + 1 ), - "CurNurb_append2" ); - - if( !nurb->bezt ) - return ( EXPP_ReturnPyObjError - ( PyExc_MemoryError, "allocation failed" ) ); - - /* copy old points to new */ - if( tmp ) { - memmove( nurb->bezt, tmp, sizeof( BezTriple ) * npoints ); - MEM_freeN( tmp ); - } - - nurb->pntsu++; - /* add new point to end of list */ - memcpy( nurb->bezt + npoints, - BezTriple_FromPyObject( value ), sizeof( BezTriple ) ); - - } - else if( PySequence_Check( value ) ) { - size = PySequence_Size( value ); -/* printf("\ndbg: got a sequence of size %d\n", size ); */ - if( size == 4 || size == 5 || size == 6) { - BPoint *tmp; - - tmp = nurb->bp; /* save old pts */ - - nurb->bp = - ( BPoint * ) MEM_mallocN( sizeof( BPoint ) * - ( npoints + 1 ), - "CurNurb_append1" ); - if( !nurb->bp ) - return ( EXPP_ReturnPyObjError - ( PyExc_MemoryError, - "allocation failed" ) ); - - memmove( nurb->bp, tmp, sizeof( BPoint ) * npoints ); - if( tmp ) - MEM_freeN( tmp ); - - ++nurb->pntsu; - /* initialize new BPoint from old */ - memcpy( nurb->bp + npoints, nurb->bp, - sizeof( BPoint ) ); - - for( i = 0; i < 4; ++i ) { - PyObject *item = PySequence_GetItem( value, i ); - - if (item == NULL) - return NULL; - - - nurb->bp[npoints].vec[i] = ( float ) PyFloat_AsDouble( item ); - Py_DECREF( item ); - } - - if (size >= 5) { - PyObject *item = PySequence_GetItem( value, 4 ); - - if (item == NULL) - return NULL; - - nurb->bp[npoints].alfa = ( float ) PyFloat_AsDouble( item ); - Py_DECREF( item ); - } - else { - nurb->bp[npoints].alfa = 0.0f; - } - - if (size == 6) { - PyObject *item = PySequence_GetItem( value, 5 ); - - if (item == NULL) - return NULL; - - nurb->bp[npoints].radius = ( float ) PyFloat_AsDouble( item ); - Py_DECREF( item ); - } - else { - nurb->bp[npoints].radius = 1.0f; - } - - nurb->bp[npoints].weight = 0.0; /* softbody weight TODO - add access to this, is zero elsewhere but through blender is 1.0 by default */ - - makeknots( nurb, 1, nurb->flagu >> 1 ); - - } else { - return EXPP_ReturnPyObjError( PyExc_TypeError, - "expected a sequence of 4 or 6 floats" ); - } - - } else { - /* bail with error */ - return EXPP_ReturnPyObjError( PyExc_TypeError, - "expected a sequence of 4 to 6 floats" ); - - } - - Py_RETURN_NONE; -} - - -/* - * CurNurb_setMatIndex - * - * set index into material list - */ - -static int CurNurb_setMatIndex( BPy_CurNurb * self, PyObject * args ) -{ - printf ("%d\n", self->nurb->mat_nr); - return EXPP_setIValueRange( args, &self->nurb->mat_nr, 0, 15, 'h' ); -} - -/* - * CurNurb_getMatIndex - * - * returns index into material list - */ - -static PyObject *CurNurb_getMatIndex( BPy_CurNurb * self ) -{ - PyObject *index = PyInt_FromLong( ( long ) self->nurb->mat_nr ); - - if( index ) - return index; - - return EXPP_ReturnPyObjError( PyExc_RuntimeError, - "could not get material index" ); -} - -/* - * CurNurb_getFlagU - * - * returns curve's flagu - */ - -static PyObject *CurNurb_getFlagU( BPy_CurNurb * self ) -{ - PyObject *flagu = PyInt_FromLong( ( long ) self->nurb->flagu ); - - if( flagu ) - return flagu; - - return ( EXPP_ReturnPyObjError( PyExc_RuntimeError, - "could not get CurNurb.flagu index" ) ); -} - -/* - * CurNurb_setFlagU - * - * set curve's flagu and recalculate the knots - * - * Possible values: 0 - uniform, 2 - endpoints, 4 - bezier - * bit 0 controls CU_CYCLIC - */ - -static int CurNurb_setFlagU( BPy_CurNurb * self, PyObject * args ) -{ - PyObject* integer = PyNumber_Int( args ); - short value; - - if( !integer ) - return EXPP_ReturnIntError( PyExc_TypeError, - "expected integer argument" ); - - value = ( short )PyInt_AS_LONG( integer ); - Py_DECREF( integer ); - - if( value < 0 || value > 5 ) - return EXPP_ReturnIntError( PyExc_ValueError, - "expected integer argument in range [0,5]" ); - - if( self->nurb->flagu != value ) { - self->nurb->flagu = (short)value; - makeknots( self->nurb, 1, self->nurb->flagu >> 1 ); - } - - return 0; -} - -/* - * CurNurb_getFlagV - * - * returns curve's flagu - */ - -static PyObject *CurNurb_getFlagV( BPy_CurNurb * self ) -{ - PyObject *flagv = PyInt_FromLong( ( long ) self->nurb->flagv ); - - if( flagv ) - return flagv; - - return ( EXPP_ReturnPyObjError( PyExc_RuntimeError, - "could not get CurNurb.flagv" ) ); -} - -/* - * CurNurb_setFlagV - * - * set curve's flagu and recalculate the knots - * - * Possible values: 0 - uniform, 1 - endpoints, 2 - bezier - */ - -static int CurNurb_setFlagV( BPy_CurNurb * self, PyObject * args ) -{ - PyObject* integer = PyNumber_Int( args ); - short value; - - if( !integer ) - return EXPP_ReturnIntError( PyExc_TypeError, - "expected integer argument" ); - - value = ( short )PyInt_AS_LONG( integer ); - Py_DECREF( integer ); - - if( value < 0 || value > 5 ) - return EXPP_ReturnIntError( PyExc_ValueError, - "expected integer argument in range [0,5]" ); - - if( self->nurb->flagv != value ) { - self->nurb->flagv = (short)value; - makeknots( self->nurb, 2, self->nurb->flagv >> 1 ); - } - - return 0; -} - -static PyObject *CurNurb_getOrderU( BPy_CurNurb * self ) -{ - return PyInt_FromLong( ( long ) self->nurb->orderu ); -} - -static int CurNurb_setOrderU( BPy_CurNurb * self, PyObject * args ) -{ - int order; - - args = PyNumber_Int( args ); - if( !args ) - return EXPP_ReturnIntError( PyExc_TypeError, - "expected integer argument" ); - - order = ( int )PyInt_AS_LONG( args ); - Py_DECREF( args ); - - if( order < 2 ) order = 2; - else if( order > 6 ) order = 6; - - if( self->nurb->pntsu < order ) - order = self->nurb->pntsu; - - self->nurb->orderu = (short)order; - makeknots( self->nurb, 1, self->nurb->flagu >> 1 ); - - return 0; -} - -/* - * CurNurb_getIter - * - * create an iterator for our CurNurb. - * this iterator returns the points for this CurNurb. - */ - -static PyObject *CurNurb_getIter( BPy_CurNurb * self ) -{ - self->bp = self->nurb->bp; - self->bezt = self->nurb->bezt; - self->atEnd = 0; - self->nextPoint = 0; - - /* set exhausted flag if both bp and bezt are zero */ - if( ( !self->bp ) && ( !self->bezt ) ) - self->atEnd = 1; - - Py_INCREF( self ); - return ( PyObject * ) self; -} - - -static PyObject *CurNurb_iterNext( BPy_CurNurb * self ) -{ - PyObject *po; /* return value */ - Nurb *pnurb = self->nurb; - int npoints = pnurb->pntsu; - - /* are we at end already? */ - if( self->atEnd ) - return ( EXPP_ReturnPyObjError( PyExc_StopIteration, - "iterator at end" ) ); - - if( self->nextPoint < npoints ) { - - po = CurNurb_pointAtIndex( self->nurb, self->nextPoint ); - self->nextPoint++; - - return po; - - } else { - self->atEnd = 1; /* set flag true */ - } - - return ( EXPP_ReturnPyObjError( PyExc_StopIteration, - "iterator at end" ) ); -} - - - -/* - * CurNurb_isNurb() - * test whether spline nurb or bezier - */ - -static PyObject *CurNurb_isNurb( BPy_CurNurb * self ) -{ - /* NOTE: a Nurb has bp and bezt pointers - * depending on type. - * It is possible both are NULL if no points exist. - * in that case, we return False - */ - - if( self->nurb->bp ) { - Py_RETURN_TRUE; - } else { - Py_RETURN_FALSE; - } -} - -/* - * CurNurb_isCyclic() - * test whether spline cyclic (closed) or not (open) - */ - -static PyObject *CurNurb_isCyclic( BPy_CurNurb * self ) -{ - /* supposing that the flagu is always set */ - - if( self->nurb->flagu & CU_CYCLIC ) { - Py_RETURN_TRUE; - } else { - Py_RETURN_FALSE; - } -} - -/* - * CurNurb_length - * returns the number of points in a Nurb - * this is a tp_as_sequence method, not a regular instance method. - */ - -static int CurNurb_length( PyInstanceObject * inst ) -{ - Nurb *nurb; - int len; - - if( BPy_CurNurb_Check( ( PyObject * ) inst ) ) { - nurb = ( ( BPy_CurNurb * ) inst )->nurb; - len = nurb->pntsu; - return len; - } - - return EXPP_ReturnIntError( PyExc_RuntimeError, - "arg is not a BPy_CurNurb" ); -} - -/* - * CurNurb_getPoint - * returns the Nth point in a Nurb - * this is one of the tp_as_sequence methods, hence the int N argument. - * it is called via the [] operator, not as a usual instance method. - */ - -PyObject *CurNurb_getPoint( BPy_CurNurb * self, int index ) -{ - Nurb *myNurb; - - int npoints; - - /* for convenince */ - myNurb = self->nurb; - npoints = myNurb->pntsu; - - /* DELETED: bail if index < 0 */ - /* actually, this check is not needed since python treats */ - /* negative indices as starting from the right end of a sequence */ - /* - THAT IS WRONG, when passing a negative index, python adjusts it to be positive - BUT it can still overflow in the negatives if the index is too small. - For example, list[-6] when list contains 5 items means index = -1 in here. - (theeth) - */ - - /* bail if no Nurbs in Curve */ - if( npoints == 0 ) - return ( EXPP_ReturnPyObjError( PyExc_IndexError, - "no points in this CurNurb" ) ); - - /* check index limits */ - if( index >= npoints || index < 0 ) - return ( EXPP_ReturnPyObjError( PyExc_IndexError, - "index out of range" ) ); - - return CurNurb_pointAtIndex( myNurb, index ); -} - -/* - * CurNurb_setPoint - * modifies the Nth point in a Nurb - * this is one of the tp_as_sequence methods, hence the int N argument. - * it is called via the [] = operator, not as a usual instance method. - */ -static int CurNurb_setPoint( BPy_CurNurb * self, int index, PyObject * pyOb ) -{ - Nurb *nurb = self->nurb; - int size; - - /* check index limits */ - if( index < 0 || index >= nurb->pntsu ) - return EXPP_ReturnIntError( PyExc_IndexError, - "array assignment index out of range" ); - - - /* branch by curve type */ - if ((nurb->type & 7)==CU_BEZIER) { /* BEZIER */ - /* check parameter type */ - if( !BPy_BezTriple_Check( pyOb ) ) - return EXPP_ReturnIntError( PyExc_TypeError, - "expected a BezTriple" ); - - /* copy bezier in array */ - memcpy( nurb->bezt + index, - BezTriple_FromPyObject( pyOb ), sizeof( BezTriple ) ); - - return 0; /* finished correctly */ - } - else { /* NURBS or POLY */ - int i; - - /* check parameter type */ - if (!PySequence_Check( pyOb )) - return EXPP_ReturnIntError( PyExc_TypeError, - "expected a list of 4 (or optionally 5 if the curve is 3D) floats" ); - - size = PySequence_Size( pyOb ); - - /* check sequence size */ - if( size != 4 && size != 5 ) - return EXPP_ReturnIntError( PyExc_TypeError, - "expected a list of 4 (or optionally 5 if the curve is 3D) floats" ); - - /* copy x, y, z, w */ - for( i = 0; i < 4; ++i ) { - PyObject *item = PySequence_GetItem( pyOb, i ); - - if (item == NULL) - return -1; - - nurb->bp[index].vec[i] = ( float ) PyFloat_AsDouble( item ); - Py_DECREF( item ); - } - - if (size == 5) { /* set tilt, if present */ - PyObject *item = PySequence_GetItem( pyOb, i ); - - if (item == NULL) - return -1; - - nurb->bp[index].alfa = ( float ) PyFloat_AsDouble( item ); - Py_DECREF( item ); - } - else { /* if not, set default */ - nurb->bp[index].alfa = 0.0f; - } - - return 0; /* finished correctly */ - } -} - - -/* - * this is an internal routine. not callable directly from python - */ - -PyObject *CurNurb_pointAtIndex( Nurb * nurb, int index ) -{ - PyObject *pyo; - - if( nurb->bp ) { /* we have a nurb curve */ - int i; - - /* add Tilt only if curve is 3D */ - if (nurb->flag & CU_3D) - pyo = PyList_New( 5 ); - else - pyo = PyList_New( 4 ); - - for( i = 0; i < 4; i++ ) { - PyList_SetItem( pyo, i, - PyFloat_FromDouble( nurb->bp[index].vec[i] ) ); - } - - /* add Tilt only if curve is 3D */ - if (nurb->flag & CU_3D) - PyList_SetItem( pyo, 4, PyFloat_FromDouble( nurb->bp[index].alfa ) ); - - } else if( nurb->bezt ) { /* we have a bezier */ - /* if an error occurs, we just pass it on */ - pyo = BezTriple_CreatePyObject( &( nurb->bezt[index] ) ); - - } else /* something is horribly wrong */ - /* neither bp or bezt is set && pntsu != 0 */ - return EXPP_ReturnPyObjError( PyExc_SystemError, - "inconsistant structure found" ); - - return pyo; -} - -/* - dump nurb -*/ - -PyObject *CurNurb_dump( BPy_CurNurb * self ) -{ - BPoint *bp = NULL; - BezTriple *bezt = NULL; - Nurb *nurb = self->nurb; - int npoints = 0; - - if( !self->nurb ) - return EXPP_ReturnPyObjError( PyExc_RuntimeError, - "no Nurb in this CurNurb"); - - printf(" type: %d, mat_nr: %d hide: %d flag: %d", - nurb->type, nurb->mat_nr, nurb->hide, nurb->flag); - printf("\n pntsu: %d, pntsv: %d, resolu: %d resolv: %d", - nurb->pntsu, nurb->pntsv, nurb->resolu, nurb->resolv ); - printf("\n orderu: %d orderv: %d", nurb->orderu, nurb->orderv ); - printf("\n flagu: %d flagv: %d", - nurb->flagu, nurb->flagv ); - - npoints = nurb->pntsu; - - if( nurb->bp ) { /* we have a BPoint */ - int n; - for( n = 0, bp = nurb->bp; - n < npoints; - n++, bp++ ) - { - /* vec[4] */ - printf( "\ncoords[%d]: ", n); - { - int i; - for( i = 0; i < 4; i++){ - printf("%10.3f ", bp->vec[i] ); - } - } - - /* alfa, s[2] */ - printf("\n alpha: %5.2f", bp->alfa); - /* f1, hide */ - printf(" f1 %d hide %d", bp->f1, bp->hide ); - printf("\n"); - } - } - else { /* we have a BezTriple */ - int n; - for( n = 0, bezt = nurb->bezt; - n < npoints; - n++, bezt++ ) - { - int i, j; - printf("\npoint %d: ", n); - for( i = 0; i < 3; i++ ) { - printf("\nvec[%i] ",i ); - for( j = 0; j < 3; j++ ) { - printf(" %5.2f ", bezt->vec[i][j] ); - } - } - - - } - printf("\n"); - } - - Py_RETURN_NONE; -} - -/* - recalc nurb -*/ - -static PyObject *CurNurb_recalc( BPy_CurNurb * self ) -{ - calchandlesNurb ( self->nurb ); - Py_RETURN_NONE; -} - -PyObject *CurNurb_switchDirection( BPy_CurNurb * self ) -{ - if( !self->nurb ) - return EXPP_ReturnPyObjError( PyExc_RuntimeError, - "no Nurb in this CurNurb"); - - switchdirectionNurb( self->nurb ); - - Py_RETURN_NONE; -} - -PyObject *CurNurb_Init( void ) -{ - if( PyType_Ready( &CurNurb_Type ) < 0) - return NULL; - - return Py_InitModule3( "Blender.CurNurb", M_CurNurb_methods, - M_CurNurb_doc ); -} - -/* #####DEPRECATED###### */ - -static PyObject *CurNurb_oldsetType( BPy_CurNurb * self, PyObject * args ) -{ - return EXPP_setterWrapper( (void *)self, args, - (setter)CurNurb_setType ); -} - -static PyObject *CurNurb_oldsetMatIndex( BPy_CurNurb * self, PyObject * args ) -{ - return EXPP_setterWrapper( (void *)self, args, - (setter)CurNurb_setMatIndex ); -} - -static PyObject *CurNurb_oldsetFlagU( BPy_CurNurb * self, PyObject * args ) -{ - return EXPP_setterWrapper( (void *)self, args, - (setter)CurNurb_setFlagU ); -} - -static PyObject *CurNurb_oldsetFlagV( BPy_CurNurb * self, PyObject * args ) -{ - return EXPP_setterWrapper( (void *)self, args, - (setter)CurNurb_setFlagV ); -} |