/Users/scm/git/github/teem/src/limn/polyshapes.c

Bug Summary

File:	src/limn/polyshapes.c
Location:	line 404, column 50
Description:	Value stored to 'vertIdx' is never read

Annotated Source Code

1	/*
2	Teem: Tools to process and visualize scientific data and images .
3	Copyright (C) 2013, 2012, 2011, 2010, 2009 University of Chicago
4	Copyright (C) 2010, 2009, 2008 Thomas Schultz
5	Copyright (C) 2008, 2007, 2006, 2005 Gordon Kindlmann
6	Copyright (C) 2004, 2003, 2002, 2001, 2000, 1999, 1998 University of Utah
7
8	This library is free software; you can redistribute it and/or
9	modify it under the terms of the GNU Lesser General Public License
10	(LGPL) as published by the Free Software Foundation; either
11	version 2.1 of the License, or (at your option) any later version.
12	The terms of redistributing and/or modifying this software also
13	include exceptions to the LGPL that facilitate static linking.
14
15	This library is distributed in the hope that it will be useful,
16	but WITHOUT ANY WARRANTY; without even the implied warranty of
17	MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
18	Lesser General Public License for more details.
19
20	You should have received a copy of the GNU Lesser General Public License
21	along with this library; if not, write to Free Software Foundation, Inc.,
22	51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
23	*/
24
25
26	#include "limn.h"
27
28	int
29	limnPolyDataCube(limnPolyData *pld,
30	unsigned int infoBitFlag,
31	int sharpEdge) {
32	static const char me[]="limnPolyDataCube";
33	unsigned int vertNum, vertIdx, primNum, indxNum, cnum, ci;
34
35	vertNum = sharpEdge ? 6*4 : 8;
36	primNum = 1;
37	indxNum = 6*4;
38	if (limnPolyDataAlloc(pld, infoBitFlag, vertNum, indxNum, primNum)) {
39	biffAddf(LIMNlimnBiffKey, "%s: couldn't allocate output", me);
40	return 1;
41	}
42	pld->type[0] = limnPrimitiveQuads;
43	pld->icnt[0] = indxNum;
44
45	vertIdx = 0;
46	cnum = sharpEdge ? 3 : 1;
47	for (ci=0; ci<cnum; ci++) {
48	ELL_4V_SET(pld->xyzw + 4vertIdx, -1, -1, -1, 1)((pld->xyzw + 4vertIdx)[0] = (-1), (pld->xyzw + 4vertIdx )[1] = (-1), (pld->xyzw + 4vertIdx)[2] = (-1), (pld->xyzw + 4*vertIdx)[3] = (1)); vertIdx++;
49	}
50	for (ci=0; ci<cnum; ci++) {
51	ELL_4V_SET(pld->xyzw + 4vertIdx, -1, 1, -1, 1)((pld->xyzw + 4vertIdx)[0] = (-1), (pld->xyzw + 4vertIdx )[1] = (1), (pld->xyzw + 4vertIdx)[2] = (-1), (pld->xyzw + 4*vertIdx)[3] = (1)); vertIdx++;
52	}
53	for (ci=0; ci<cnum; ci++) {
54	ELL_4V_SET(pld->xyzw + 4vertIdx, 1, 1, -1, 1)((pld->xyzw + 4vertIdx)[0] = (1), (pld->xyzw + 4vertIdx )[1] = (1), (pld->xyzw + 4vertIdx)[2] = (-1), (pld->xyzw + 4*vertIdx)[3] = (1)); vertIdx++;
55	}
56	for (ci=0; ci<cnum; ci++) {
57	ELL_4V_SET(pld->xyzw + 4vertIdx, 1, -1, -1, 1)((pld->xyzw + 4vertIdx)[0] = (1), (pld->xyzw + 4vertIdx )[1] = (-1), (pld->xyzw + 4vertIdx)[2] = (-1), (pld->xyzw + 4*vertIdx)[3] = (1)); vertIdx++;
58	}
59	for (ci=0; ci<cnum; ci++) {
60	ELL_4V_SET(pld->xyzw + 4vertIdx, -1, -1, 1, 1)((pld->xyzw + 4vertIdx)[0] = (-1), (pld->xyzw + 4vertIdx )[1] = (-1), (pld->xyzw + 4vertIdx)[2] = (1), (pld->xyzw + 4*vertIdx)[3] = (1)); vertIdx++;
61	}
62	for (ci=0; ci<cnum; ci++) {
63	ELL_4V_SET(pld->xyzw + 4vertIdx, -1, 1, 1, 1)((pld->xyzw + 4vertIdx)[0] = (-1), (pld->xyzw + 4vertIdx )[1] = (1), (pld->xyzw + 4vertIdx)[2] = (1), (pld->xyzw + 4*vertIdx)[3] = (1)); vertIdx++;
64	}
65	for (ci=0; ci<cnum; ci++) {
66	ELL_4V_SET(pld->xyzw + 4vertIdx, 1, 1, 1, 1)((pld->xyzw + 4vertIdx)[0] = (1), (pld->xyzw + 4vertIdx )[1] = (1), (pld->xyzw + 4vertIdx)[2] = (1), (pld->xyzw + 4*vertIdx)[3] = (1)); vertIdx++;
67	}
68	for (ci=0; ci<cnum; ci++) {
69	ELL_4V_SET(pld->xyzw + 4vertIdx, 1, -1, 1, 1)((pld->xyzw + 4vertIdx)[0] = (1), (pld->xyzw + 4vertIdx )[1] = (-1), (pld->xyzw + 4vertIdx)[2] = (1), (pld->xyzw + 4*vertIdx)[3] = (1)); vertIdx++;
70	}
71
72	vertIdx = 0;
73	if (sharpEdge) {
74	ELL_4V_SET(pld->indx + vertIdx, 0, 3, 6, 9)((pld->indx + vertIdx)[0] = (0), (pld->indx + vertIdx)[ 1] = (3), (pld->indx + vertIdx)[2] = (6), (pld->indx + vertIdx )[3] = (9)); vertIdx += 4;
75	ELL_4V_SET(pld->indx + vertIdx, 2, 14, 16, 5)((pld->indx + vertIdx)[0] = (2), (pld->indx + vertIdx)[ 1] = (14), (pld->indx + vertIdx)[2] = (16), (pld->indx + vertIdx)[3] = (5)); vertIdx += 4;
76	ELL_4V_SET(pld->indx + vertIdx, 4, 17, 18, 8)((pld->indx + vertIdx)[0] = (4), (pld->indx + vertIdx)[ 1] = (17), (pld->indx + vertIdx)[2] = (18), (pld->indx + vertIdx)[3] = (8)); vertIdx += 4;
77	ELL_4V_SET(pld->indx + vertIdx, 7, 19, 21, 10)((pld->indx + vertIdx)[0] = (7), (pld->indx + vertIdx)[ 1] = (19), (pld->indx + vertIdx)[2] = (21), (pld->indx + vertIdx)[3] = (10)); vertIdx += 4;
78	ELL_4V_SET(pld->indx + vertIdx, 1, 11, 23, 13)((pld->indx + vertIdx)[0] = (1), (pld->indx + vertIdx)[ 1] = (11), (pld->indx + vertIdx)[2] = (23), (pld->indx + vertIdx)[3] = (13)); vertIdx += 4;
79	ELL_4V_SET(pld->indx + vertIdx, 12, 22, 20, 15)((pld->indx + vertIdx)[0] = (12), (pld->indx + vertIdx) [1] = (22), (pld->indx + vertIdx)[2] = (20), (pld->indx + vertIdx)[3] = (15)); vertIdx += 4;
80	} else {
81	ELL_4V_SET(pld->indx + vertIdx, 0, 1, 2, 3)((pld->indx + vertIdx)[0] = (0), (pld->indx + vertIdx)[ 1] = (1), (pld->indx + vertIdx)[2] = (2), (pld->indx + vertIdx )[3] = (3)); vertIdx += 4;
82	ELL_4V_SET(pld->indx + vertIdx, 0, 4, 5, 1)((pld->indx + vertIdx)[0] = (0), (pld->indx + vertIdx)[ 1] = (4), (pld->indx + vertIdx)[2] = (5), (pld->indx + vertIdx )[3] = (1)); vertIdx += 4;
83	ELL_4V_SET(pld->indx + vertIdx, 1, 5, 6, 2)((pld->indx + vertIdx)[0] = (1), (pld->indx + vertIdx)[ 1] = (5), (pld->indx + vertIdx)[2] = (6), (pld->indx + vertIdx )[3] = (2)); vertIdx += 4;
84	ELL_4V_SET(pld->indx + vertIdx, 2, 6, 7, 3)((pld->indx + vertIdx)[0] = (2), (pld->indx + vertIdx)[ 1] = (6), (pld->indx + vertIdx)[2] = (7), (pld->indx + vertIdx )[3] = (3)); vertIdx += 4;
85	ELL_4V_SET(pld->indx + vertIdx, 0, 3, 7, 4)((pld->indx + vertIdx)[0] = (0), (pld->indx + vertIdx)[ 1] = (3), (pld->indx + vertIdx)[2] = (7), (pld->indx + vertIdx )[3] = (4)); vertIdx += 4;
86	ELL_4V_SET(pld->indx + vertIdx, 4, 7, 6, 5)((pld->indx + vertIdx)[0] = (4), (pld->indx + vertIdx)[ 1] = (7), (pld->indx + vertIdx)[2] = (6), (pld->indx + vertIdx )[3] = (5)); vertIdx += 4;
87	}
88
89	if ((1 << limnPolyDataInfoNorm) & infoBitFlag) {
90	if (sharpEdge) {
91	ELL_3V_SET(pld->norm + 30, 0, 0, -1)((pld->norm + 30)[0] = (0), (pld->norm + 30)[1] = (0) , (pld->norm + 30)[2] = (-1));
92	ELL_3V_SET(pld->norm + 33, 0, 0, -1)((pld->norm + 33)[0] = (0), (pld->norm + 33)[1] = (0) , (pld->norm + 33)[2] = (-1));
93	ELL_3V_SET(pld->norm + 36, 0, 0, -1)((pld->norm + 36)[0] = (0), (pld->norm + 36)[1] = (0) , (pld->norm + 36)[2] = (-1));
94	ELL_3V_SET(pld->norm + 39, 0, 0, -1)((pld->norm + 39)[0] = (0), (pld->norm + 39)[1] = (0) , (pld->norm + 39)[2] = (-1));
95	ELL_3V_SET(pld->norm + 32, -1, 0, 0)((pld->norm + 32)[0] = (-1), (pld->norm + 32)[1] = (0 ), (pld->norm + 32)[2] = (0));
96	ELL_3V_SET(pld->norm + 35, -1, 0, 0)((pld->norm + 35)[0] = (-1), (pld->norm + 35)[1] = (0 ), (pld->norm + 35)[2] = (0));
97	ELL_3V_SET(pld->norm + 314, -1, 0, 0)((pld->norm + 314)[0] = (-1), (pld->norm + 314)[1] = ( 0), (pld->norm + 314)[2] = (0));
98	ELL_3V_SET(pld->norm + 316, -1, 0, 0)((pld->norm + 316)[0] = (-1), (pld->norm + 316)[1] = ( 0), (pld->norm + 316)[2] = (0));
99	ELL_3V_SET(pld->norm + 34, 0, 1, 0)((pld->norm + 34)[0] = (0), (pld->norm + 34)[1] = (1) , (pld->norm + 34)[2] = (0));
100	ELL_3V_SET(pld->norm + 38, 0, 1, 0)((pld->norm + 38)[0] = (0), (pld->norm + 38)[1] = (1) , (pld->norm + 38)[2] = (0));
101	ELL_3V_SET(pld->norm + 317, 0, 1, 0)((pld->norm + 317)[0] = (0), (pld->norm + 317)[1] = ( 1), (pld->norm + 317)[2] = (0));
102	ELL_3V_SET(pld->norm + 318, 0, 1, 0)((pld->norm + 318)[0] = (0), (pld->norm + 318)[1] = ( 1), (pld->norm + 318)[2] = (0));
103	ELL_3V_SET(pld->norm + 37, 1, 0, 0)((pld->norm + 37)[0] = (1), (pld->norm + 37)[1] = (0) , (pld->norm + 37)[2] = (0));
104	ELL_3V_SET(pld->norm + 310, 1, 0, 0)((pld->norm + 310)[0] = (1), (pld->norm + 310)[1] = ( 0), (pld->norm + 310)[2] = (0));
105	ELL_3V_SET(pld->norm + 319, 1, 0, 0)((pld->norm + 319)[0] = (1), (pld->norm + 319)[1] = ( 0), (pld->norm + 319)[2] = (0));
106	ELL_3V_SET(pld->norm + 321, 1, 0, 0)((pld->norm + 321)[0] = (1), (pld->norm + 321)[1] = ( 0), (pld->norm + 321)[2] = (0));
107	ELL_3V_SET(pld->norm + 31, 0, -1, 0)((pld->norm + 31)[0] = (0), (pld->norm + 31)[1] = (-1 ), (pld->norm + 31)[2] = (0));
108	ELL_3V_SET(pld->norm + 311, 0, -1, 0)((pld->norm + 311)[0] = (0), (pld->norm + 311)[1] = ( -1), (pld->norm + 311)[2] = (0));
109	ELL_3V_SET(pld->norm + 313, 0, -1, 0)((pld->norm + 313)[0] = (0), (pld->norm + 313)[1] = ( -1), (pld->norm + 313)[2] = (0));
110	ELL_3V_SET(pld->norm + 323, 0, -1, 0)((pld->norm + 323)[0] = (0), (pld->norm + 323)[1] = ( -1), (pld->norm + 323)[2] = (0));
111	ELL_3V_SET(pld->norm + 312, 0, 0, 1)((pld->norm + 312)[0] = (0), (pld->norm + 312)[1] = ( 0), (pld->norm + 312)[2] = (1));
112	ELL_3V_SET(pld->norm + 315, 0, 0, 1)((pld->norm + 315)[0] = (0), (pld->norm + 315)[1] = ( 0), (pld->norm + 315)[2] = (1));
113	ELL_3V_SET(pld->norm + 320, 0, 0, 1)((pld->norm + 320)[0] = (0), (pld->norm + 320)[1] = ( 0), (pld->norm + 320)[2] = (1));
114	ELL_3V_SET(pld->norm + 322, 0, 0, 1)((pld->norm + 322)[0] = (0), (pld->norm + 322)[1] = ( 0), (pld->norm + 322)[2] = (1));
115	} else {
116	float cn;
117	cn = AIR_CAST(float, sqrt(3.0))((float)(sqrt(3.0)));
118	ELL_3V_SET(pld->norm + 30, -cn, -cn, -cn)((pld->norm + 30)[0] = (-cn), (pld->norm + 30)[1] = ( -cn), (pld->norm + 30)[2] = (-cn));
119	ELL_3V_SET(pld->norm + 31, -cn, cn, -cn)((pld->norm + 31)[0] = (-cn), (pld->norm + 31)[1] = ( cn), (pld->norm + 31)[2] = (-cn));
120	ELL_3V_SET(pld->norm + 32, cn, cn, -cn)((pld->norm + 32)[0] = (cn), (pld->norm + 32)[1] = (cn ), (pld->norm + 32)[2] = (-cn));
121	ELL_3V_SET(pld->norm + 33, cn, -cn, -cn)((pld->norm + 33)[0] = (cn), (pld->norm + 33)[1] = (- cn), (pld->norm + 33)[2] = (-cn));
122	ELL_3V_SET(pld->norm + 34, -cn, -cn, cn)((pld->norm + 34)[0] = (-cn), (pld->norm + 34)[1] = ( -cn), (pld->norm + 34)[2] = (cn));
123	ELL_3V_SET(pld->norm + 35, -cn, cn, cn)((pld->norm + 35)[0] = (-cn), (pld->norm + 35)[1] = ( cn), (pld->norm + 35)[2] = (cn));
124	ELL_3V_SET(pld->norm + 36, cn, cn, cn)((pld->norm + 36)[0] = (cn), (pld->norm + 36)[1] = (cn ), (pld->norm + 36)[2] = (cn));
125	ELL_3V_SET(pld->norm + 37, cn, -cn, cn)((pld->norm + 37)[0] = (cn), (pld->norm + 37)[1] = (- cn), (pld->norm + 37)[2] = (cn));
126	}
127	}
128
129	if ((1 << limnPolyDataInfoRGBA) & infoBitFlag) {
130	for (vertIdx=0; vertIdx<pld->rgbaNum; vertIdx++) {
131	ELL_4V_SET(pld->rgba + 4vertIdx, 255, 255, 255, 255)((pld->rgba + 4vertIdx)[0] = (255), (pld->rgba + 4vertIdx )[1] = (255), (pld->rgba + 4vertIdx)[2] = (255), (pld-> rgba + 4*vertIdx)[3] = (255));
132	}
133	}
134
135	return 0;
136	}
137
138	int
139	limnPolyDataCubeTriangles(limnPolyData *pld,
140	unsigned int infoBitFlag,
141	int sharpEdge) {
142	static const char me[]="limnPolyDataCubeTriangles";
143	unsigned int vertNum, vertIdx, primNum, indxNum, cnum, ci;
144
145	vertNum = sharpEdge ? 6*4 : 8;
146	primNum = 1;
147	indxNum = 6*6;
148	if (limnPolyDataAlloc(pld, infoBitFlag, vertNum, indxNum, primNum)) {
149	biffAddf(LIMNlimnBiffKey, "%s: couldn't allocate output", me);
150	return 1;
151	}
152	pld->type[0] = limnPrimitiveTriangles;
153	pld->icnt[0] = indxNum;
154
155	vertIdx = 0;
156	cnum = sharpEdge ? 3 : 1;
157	for (ci=0; ci<cnum; ci++) {
158	ELL_4V_SET(pld->xyzw + 4vertIdx, 1, -1, 1, 1)((pld->xyzw + 4vertIdx)[0] = (1), (pld->xyzw + 4vertIdx )[1] = (-1), (pld->xyzw + 4vertIdx)[2] = (1), (pld->xyzw + 4*vertIdx)[3] = (1)); vertIdx++;
159	}
160	for (ci=0; ci<cnum; ci++) {
161	ELL_4V_SET(pld->xyzw + 4vertIdx, -1, -1, 1, 1)((pld->xyzw + 4vertIdx)[0] = (-1), (pld->xyzw + 4vertIdx )[1] = (-1), (pld->xyzw + 4vertIdx)[2] = (1), (pld->xyzw + 4*vertIdx)[3] = (1)); vertIdx++;
162	}
163	for (ci=0; ci<cnum; ci++) {
164	ELL_4V_SET(pld->xyzw + 4vertIdx, 1, 1, 1, 1)((pld->xyzw + 4vertIdx)[0] = (1), (pld->xyzw + 4vertIdx )[1] = (1), (pld->xyzw + 4vertIdx)[2] = (1), (pld->xyzw + 4*vertIdx)[3] = (1)); vertIdx++;
165	}
166	for (ci=0; ci<cnum; ci++) {
167	ELL_4V_SET(pld->xyzw + 4vertIdx, -1, 1, 1, 1)((pld->xyzw + 4vertIdx)[0] = (-1), (pld->xyzw + 4vertIdx )[1] = (1), (pld->xyzw + 4vertIdx)[2] = (1), (pld->xyzw + 4*vertIdx)[3] = (1)); vertIdx++;
168	}
169	for (ci=0; ci<cnum; ci++) {
170	ELL_4V_SET(pld->xyzw + 4vertIdx, 1, 1, -1, 1)((pld->xyzw + 4vertIdx)[0] = (1), (pld->xyzw + 4vertIdx )[1] = (1), (pld->xyzw + 4vertIdx)[2] = (-1), (pld->xyzw + 4*vertIdx)[3] = (1)); vertIdx++;
171	}
172	for (ci=0; ci<cnum; ci++) {
173	ELL_4V_SET(pld->xyzw + 4vertIdx, -1, 1, -1, 1)((pld->xyzw + 4vertIdx)[0] = (-1), (pld->xyzw + 4vertIdx )[1] = (1), (pld->xyzw + 4vertIdx)[2] = (-1), (pld->xyzw + 4*vertIdx)[3] = (1)); vertIdx++;
174	}
175	for (ci=0; ci<cnum; ci++) {
176	ELL_4V_SET(pld->xyzw + 4vertIdx, 1, -1, -1, 1)((pld->xyzw + 4vertIdx)[0] = (1), (pld->xyzw + 4vertIdx )[1] = (-1), (pld->xyzw + 4vertIdx)[2] = (-1), (pld->xyzw + 4*vertIdx)[3] = (1)); vertIdx++;
177	}
178	for (ci=0; ci<cnum; ci++) {
179	ELL_4V_SET(pld->xyzw + 4vertIdx, -1, -1, -1, 1)((pld->xyzw + 4vertIdx)[0] = (-1), (pld->xyzw + 4vertIdx )[1] = (-1), (pld->xyzw + 4vertIdx)[2] = (-1), (pld->xyzw + 4*vertIdx)[3] = (1)); vertIdx++;
180	}
181
182	vertIdx = 0;
183	if (sharpEdge) {
184	ELL_3V_SET(pld->indx + vertIdx, 0, 6, 3)((pld->indx + vertIdx)[0] = (0), (pld->indx + vertIdx)[ 1] = (6), (pld->indx + vertIdx)[2] = (3)); vertIdx += 3;
185	ELL_3V_SET(pld->indx + vertIdx, 3, 6, 9)((pld->indx + vertIdx)[0] = (3), (pld->indx + vertIdx)[ 1] = (6), (pld->indx + vertIdx)[2] = (9)); vertIdx += 3;
186
187	ELL_3V_SET(pld->indx + vertIdx, 7, 12, 10)((pld->indx + vertIdx)[0] = (7), (pld->indx + vertIdx)[ 1] = (12), (pld->indx + vertIdx)[2] = (10)); vertIdx += 3;
188	ELL_3V_SET(pld->indx + vertIdx, 10, 12, 16)((pld->indx + vertIdx)[0] = (10), (pld->indx + vertIdx) [1] = (12), (pld->indx + vertIdx)[2] = (16)); vertIdx += 3;
189
190	ELL_3V_SET(pld->indx + vertIdx, 11, 15, 4)((pld->indx + vertIdx)[0] = (11), (pld->indx + vertIdx) [1] = (15), (pld->indx + vertIdx)[2] = (4)); vertIdx += 3;
191	ELL_3V_SET(pld->indx + vertIdx, 4, 15, 21)((pld->indx + vertIdx)[0] = (4), (pld->indx + vertIdx)[ 1] = (15), (pld->indx + vertIdx)[2] = (21)); vertIdx += 3;
192
193	ELL_3V_SET(pld->indx + vertIdx, 17, 14, 22)((pld->indx + vertIdx)[0] = (17), (pld->indx + vertIdx) [1] = (14), (pld->indx + vertIdx)[2] = (22)); vertIdx += 3;
194	ELL_3V_SET(pld->indx + vertIdx, 22, 14, 20)((pld->indx + vertIdx)[0] = (22), (pld->indx + vertIdx) [1] = (14), (pld->indx + vertIdx)[2] = (20)); vertIdx += 3;
195
196	ELL_3V_SET(pld->indx + vertIdx, 2, 5, 19)((pld->indx + vertIdx)[0] = (2), (pld->indx + vertIdx)[ 1] = (5), (pld->indx + vertIdx)[2] = (19)); vertIdx += 3;
197	ELL_3V_SET(pld->indx + vertIdx, 19, 5, 23)((pld->indx + vertIdx)[0] = (19), (pld->indx + vertIdx) [1] = (5), (pld->indx + vertIdx)[2] = (23)); vertIdx += 3;
198
199	ELL_3V_SET(pld->indx + vertIdx, 13, 8, 18)((pld->indx + vertIdx)[0] = (13), (pld->indx + vertIdx) [1] = (8), (pld->indx + vertIdx)[2] = (18)); vertIdx += 3;
200	ELL_3V_SET(pld->indx + vertIdx, 18, 8, 1)((pld->indx + vertIdx)[0] = (18), (pld->indx + vertIdx) [1] = (8), (pld->indx + vertIdx)[2] = (1)); vertIdx += 3;
201	} else {
202	ELL_3V_SET(pld->indx + vertIdx, 0, 2, 1)((pld->indx + vertIdx)[0] = (0), (pld->indx + vertIdx)[ 1] = (2), (pld->indx + vertIdx)[2] = (1)); vertIdx += 3;
203	ELL_3V_SET(pld->indx + vertIdx, 1, 2, 3)((pld->indx + vertIdx)[0] = (1), (pld->indx + vertIdx)[ 1] = (2), (pld->indx + vertIdx)[2] = (3)); vertIdx += 3;
204
205	ELL_3V_SET(pld->indx + vertIdx, 2, 4, 3)((pld->indx + vertIdx)[0] = (2), (pld->indx + vertIdx)[ 1] = (4), (pld->indx + vertIdx)[2] = (3)); vertIdx += 3;
206	ELL_3V_SET(pld->indx + vertIdx, 3, 4, 5)((pld->indx + vertIdx)[0] = (3), (pld->indx + vertIdx)[ 1] = (4), (pld->indx + vertIdx)[2] = (5)); vertIdx += 3;
207
208	ELL_3V_SET(pld->indx + vertIdx, 3, 5, 1)((pld->indx + vertIdx)[0] = (3), (pld->indx + vertIdx)[ 1] = (5), (pld->indx + vertIdx)[2] = (1)); vertIdx += 3;
209	ELL_3V_SET(pld->indx + vertIdx, 1, 5, 7)((pld->indx + vertIdx)[0] = (1), (pld->indx + vertIdx)[ 1] = (5), (pld->indx + vertIdx)[2] = (7)); vertIdx += 3;
210
211	ELL_3V_SET(pld->indx + vertIdx, 5, 4, 7)((pld->indx + vertIdx)[0] = (5), (pld->indx + vertIdx)[ 1] = (4), (pld->indx + vertIdx)[2] = (7)); vertIdx += 3;
212	ELL_3V_SET(pld->indx + vertIdx, 7, 4, 6)((pld->indx + vertIdx)[0] = (7), (pld->indx + vertIdx)[ 1] = (4), (pld->indx + vertIdx)[2] = (6)); vertIdx += 3;
213
214	ELL_3V_SET(pld->indx + vertIdx, 7, 6, 1)((pld->indx + vertIdx)[0] = (7), (pld->indx + vertIdx)[ 1] = (6), (pld->indx + vertIdx)[2] = (1)); vertIdx += 3;
215	ELL_3V_SET(pld->indx + vertIdx, 1, 6, 0)((pld->indx + vertIdx)[0] = (1), (pld->indx + vertIdx)[ 1] = (6), (pld->indx + vertIdx)[2] = (0)); vertIdx += 3;
216
217	ELL_3V_SET(pld->indx + vertIdx, 4, 2, 6)((pld->indx + vertIdx)[0] = (4), (pld->indx + vertIdx)[ 1] = (2), (pld->indx + vertIdx)[2] = (6)); vertIdx += 3;
218	ELL_3V_SET(pld->indx + vertIdx, 2, 6, 0)((pld->indx + vertIdx)[0] = (2), (pld->indx + vertIdx)[ 1] = (6), (pld->indx + vertIdx)[2] = (0)); vertIdx += 3;
219	}
220
221	if ((1 << limnPolyDataInfoNorm) & infoBitFlag) {
222	if (sharpEdge) {
223	ELL_3V_SET(pld->norm + 314, 0, 0, -1)((pld->norm + 314)[0] = (0), (pld->norm + 314)[1] = ( 0), (pld->norm + 314)[2] = (-1));
224	ELL_3V_SET(pld->norm + 317, 0, 0, -1)((pld->norm + 317)[0] = (0), (pld->norm + 317)[1] = ( 0), (pld->norm + 317)[2] = (-1));
225	ELL_3V_SET(pld->norm + 320, 0, 0, -1)((pld->norm + 320)[0] = (0), (pld->norm + 320)[1] = ( 0), (pld->norm + 320)[2] = (-1));
226	ELL_3V_SET(pld->norm + 322, 0, 0, -1)((pld->norm + 322)[0] = (0), (pld->norm + 322)[1] = ( 0), (pld->norm + 322)[2] = (-1));
227	ELL_3V_SET(pld->norm + 3* 4, -1, 0, 0)((pld->norm + 3* 4)[0] = (-1), (pld->norm + 3* 4)[1] = ( 0), (pld->norm + 3* 4)[2] = (0));
228	ELL_3V_SET(pld->norm + 311, -1, 0, 0)((pld->norm + 311)[0] = (-1), (pld->norm + 311)[1] = ( 0), (pld->norm + 311)[2] = (0));
229	ELL_3V_SET(pld->norm + 315, -1, 0, 0)((pld->norm + 315)[0] = (-1), (pld->norm + 315)[1] = ( 0), (pld->norm + 315)[2] = (0));
230	ELL_3V_SET(pld->norm + 321, -1, 0, 0)((pld->norm + 321)[0] = (-1), (pld->norm + 321)[1] = ( 0), (pld->norm + 321)[2] = (0));
231	ELL_3V_SET(pld->norm + 3* 7, 0, 1, 0)((pld->norm + 3* 7)[0] = (0), (pld->norm + 3* 7)[1] = ( 1), (pld->norm + 3* 7)[2] = (0));
232	ELL_3V_SET(pld->norm + 310, 0, 1, 0)((pld->norm + 310)[0] = (0), (pld->norm + 310)[1] = ( 1), (pld->norm + 310)[2] = (0));
233	ELL_3V_SET(pld->norm + 312, 0, 1, 0)((pld->norm + 312)[0] = (0), (pld->norm + 312)[1] = ( 1), (pld->norm + 312)[2] = (0));
234	ELL_3V_SET(pld->norm + 316, 0, 1, 0)((pld->norm + 316)[0] = (0), (pld->norm + 316)[1] = ( 1), (pld->norm + 316)[2] = (0));
235	ELL_3V_SET(pld->norm + 3* 1, 1, 0, 0)((pld->norm + 3* 1)[0] = (1), (pld->norm + 3* 1)[1] = ( 0), (pld->norm + 3* 1)[2] = (0));
236	ELL_3V_SET(pld->norm + 3* 8, 1, 0, 0)((pld->norm + 3* 8)[0] = (1), (pld->norm + 3* 8)[1] = ( 0), (pld->norm + 3* 8)[2] = (0));
237	ELL_3V_SET(pld->norm + 313, 1, 0, 0)((pld->norm + 313)[0] = (1), (pld->norm + 313)[1] = ( 0), (pld->norm + 313)[2] = (0));
238	ELL_3V_SET(pld->norm + 318, 1, 0, 0)((pld->norm + 318)[0] = (1), (pld->norm + 318)[1] = ( 0), (pld->norm + 318)[2] = (0));
239	ELL_3V_SET(pld->norm + 3* 2, 0, -1, 0)((pld->norm + 3* 2)[0] = (0), (pld->norm + 3* 2)[1] = ( -1), (pld->norm + 3* 2)[2] = (0));
240	ELL_3V_SET(pld->norm + 3* 5, 0, -1, 0)((pld->norm + 3* 5)[0] = (0), (pld->norm + 3* 5)[1] = ( -1), (pld->norm + 3* 5)[2] = (0));
241	ELL_3V_SET(pld->norm + 319, 0, -1, 0)((pld->norm + 319)[0] = (0), (pld->norm + 319)[1] = ( -1), (pld->norm + 319)[2] = (0));
242	ELL_3V_SET(pld->norm + 323, 0, -1, 0)((pld->norm + 323)[0] = (0), (pld->norm + 323)[1] = ( -1), (pld->norm + 323)[2] = (0));
243	ELL_3V_SET(pld->norm + 3* 0, 0, 0, 1)((pld->norm + 3* 0)[0] = (0), (pld->norm + 3* 0)[1] = ( 0), (pld->norm + 3* 0)[2] = (1));
244	ELL_3V_SET(pld->norm + 3* 3, 0, 0, 1)((pld->norm + 3* 3)[0] = (0), (pld->norm + 3* 3)[1] = ( 0), (pld->norm + 3* 3)[2] = (1));
245	ELL_3V_SET(pld->norm + 3* 6, 0, 0, 1)((pld->norm + 3* 6)[0] = (0), (pld->norm + 3* 6)[1] = ( 0), (pld->norm + 3* 6)[2] = (1));
246	ELL_3V_SET(pld->norm + 3* 9, 0, 0, 1)((pld->norm + 3* 9)[0] = (0), (pld->norm + 3* 9)[1] = ( 0), (pld->norm + 3* 9)[2] = (1));
247	} else {
248	float cn;
249	cn = AIR_CAST(float, 1.0/sqrt(3.0))((float)(1.0/sqrt(3.0)));
250	ELL_3V_SET(pld->norm + 30, cn, -cn, cn)((pld->norm + 30)[0] = (cn), (pld->norm + 30)[1] = (- cn), (pld->norm + 30)[2] = (cn));
251	ELL_3V_SET(pld->norm + 31, -cn, -cn, cn)((pld->norm + 31)[0] = (-cn), (pld->norm + 31)[1] = ( -cn), (pld->norm + 31)[2] = (cn));
252	ELL_3V_SET(pld->norm + 32, cn, cn, cn)((pld->norm + 32)[0] = (cn), (pld->norm + 32)[1] = (cn ), (pld->norm + 32)[2] = (cn));
253	ELL_3V_SET(pld->norm + 33, -cn, cn, cn)((pld->norm + 33)[0] = (-cn), (pld->norm + 33)[1] = ( cn), (pld->norm + 33)[2] = (cn));
254	ELL_3V_SET(pld->norm + 34, cn, cn, -cn)((pld->norm + 34)[0] = (cn), (pld->norm + 34)[1] = (cn ), (pld->norm + 34)[2] = (-cn));
255	ELL_3V_SET(pld->norm + 35, -cn, cn, -cn)((pld->norm + 35)[0] = (-cn), (pld->norm + 35)[1] = ( cn), (pld->norm + 35)[2] = (-cn));
256	ELL_3V_SET(pld->norm + 36, cn, -cn, -cn)((pld->norm + 36)[0] = (cn), (pld->norm + 36)[1] = (- cn), (pld->norm + 36)[2] = (-cn));
257	ELL_3V_SET(pld->norm + 37, -cn, -cn, -cn)((pld->norm + 37)[0] = (-cn), (pld->norm + 37)[1] = ( -cn), (pld->norm + 37)[2] = (-cn));
258	}
259	}
260
261	if ((1 << limnPolyDataInfoTex2) & infoBitFlag) {
262	if (sharpEdge) {
263	ELL_2V_SET(pld->tex2 + 214, 1, 1)((pld->tex2 + 214)[0]=(1), (pld->tex2 + 2*14)[1]=(1));
264	ELL_2V_SET(pld->tex2 + 217, 0, 1)((pld->tex2 + 217)[0]=(0), (pld->tex2 + 2*17)[1]=(1));
265	ELL_2V_SET(pld->tex2 + 220, 1, 0)((pld->tex2 + 220)[0]=(1), (pld->tex2 + 2*20)[1]=(0));
266	ELL_2V_SET(pld->tex2 + 222, 0, 0)((pld->tex2 + 222)[0]=(0), (pld->tex2 + 2*22)[1]=(0));
267	ELL_2V_SET(pld->tex2 + 2* 4, 1, 0)((pld->tex2 + 2* 4)[0]=(1), (pld->tex2 + 2* 4)[1]=(0));
268	ELL_2V_SET(pld->tex2 + 211, 0, 0)((pld->tex2 + 211)[0]=(0), (pld->tex2 + 2*11)[1]=(0));
269	ELL_2V_SET(pld->tex2 + 215, 0, 1)((pld->tex2 + 215)[0]=(0), (pld->tex2 + 2*15)[1]=(1));
270	ELL_2V_SET(pld->tex2 + 221, 1, 1)((pld->tex2 + 221)[0]=(1), (pld->tex2 + 2*21)[1]=(1));
271	ELL_2V_SET(pld->tex2 + 2* 7, 0, 0)((pld->tex2 + 2* 7)[0]=(0), (pld->tex2 + 2* 7)[1]=(0));
272	ELL_2V_SET(pld->tex2 + 210, 1, 0)((pld->tex2 + 210)[0]=(1), (pld->tex2 + 2*10)[1]=(0));
273	ELL_2V_SET(pld->tex2 + 212, 0, 1)((pld->tex2 + 212)[0]=(0), (pld->tex2 + 2*12)[1]=(1));
274	ELL_2V_SET(pld->tex2 + 216, 1, 1)((pld->tex2 + 216)[0]=(1), (pld->tex2 + 2*16)[1]=(1));
275	ELL_2V_SET(pld->tex2 + 2* 1, 0, 0)((pld->tex2 + 2* 1)[0]=(0), (pld->tex2 + 2* 1)[1]=(0));
276	ELL_2V_SET(pld->tex2 + 2* 8, 1, 0)((pld->tex2 + 2* 8)[0]=(1), (pld->tex2 + 2* 8)[1]=(0));
277	ELL_2V_SET(pld->tex2 + 213, 1, 1)((pld->tex2 + 213)[0]=(1), (pld->tex2 + 2*13)[1]=(1));
278	ELL_2V_SET(pld->tex2 + 218, 0, 1)((pld->tex2 + 218)[0]=(0), (pld->tex2 + 2*18)[1]=(1));
279	ELL_2V_SET(pld->tex2 + 2* 2, 1, 0)((pld->tex2 + 2* 2)[0]=(1), (pld->tex2 + 2* 2)[1]=(0));
280	ELL_2V_SET(pld->tex2 + 2* 5, 0, 0)((pld->tex2 + 2* 5)[0]=(0), (pld->tex2 + 2* 5)[1]=(0));
281	ELL_2V_SET(pld->tex2 + 219, 1, 1)((pld->tex2 + 219)[0]=(1), (pld->tex2 + 2*19)[1]=(1));
282	ELL_2V_SET(pld->tex2 + 223, 0, 1)((pld->tex2 + 223)[0]=(0), (pld->tex2 + 2*23)[1]=(1));
283	ELL_2V_SET(pld->tex2 + 2* 0, 1, 1)((pld->tex2 + 2* 0)[0]=(1), (pld->tex2 + 2* 0)[1]=(1));
284	ELL_2V_SET(pld->tex2 + 2* 3, 0, 1)((pld->tex2 + 2* 3)[0]=(0), (pld->tex2 + 2* 3)[1]=(1));
285	ELL_2V_SET(pld->tex2 + 2* 6, 1, 0)((pld->tex2 + 2* 6)[0]=(1), (pld->tex2 + 2* 6)[1]=(0));
286	ELL_2V_SET(pld->tex2 + 2* 9, 0, 0)((pld->tex2 + 2* 9)[0]=(0), (pld->tex2 + 2* 9)[1]=(0));
287	} else {
288	ELL_2V_SET(pld->tex2 + 20, 1, 1)((pld->tex2 + 20)[0]=(1), (pld->tex2 + 2*0)[1]=(1));
289	ELL_2V_SET(pld->tex2 + 21, 0, 1)((pld->tex2 + 21)[0]=(0), (pld->tex2 + 2*1)[1]=(1));
290	ELL_2V_SET(pld->tex2 + 22, 1, 0)((pld->tex2 + 22)[0]=(1), (pld->tex2 + 2*2)[1]=(0));
291	ELL_2V_SET(pld->tex2 + 23, 0, 0)((pld->tex2 + 23)[0]=(0), (pld->tex2 + 2*3)[1]=(0));
292	ELL_2V_SET(pld->tex2 + 24, 1, 0)((pld->tex2 + 24)[0]=(1), (pld->tex2 + 2*4)[1]=(0));
293	ELL_2V_SET(pld->tex2 + 25, 0, 0)((pld->tex2 + 25)[0]=(0), (pld->tex2 + 2*5)[1]=(0));
294	ELL_2V_SET(pld->tex2 + 26, 1, 1)((pld->tex2 + 26)[0]=(1), (pld->tex2 + 2*6)[1]=(1));
295	ELL_2V_SET(pld->tex2 + 27, 0, 1)((pld->tex2 + 27)[0]=(0), (pld->tex2 + 2*7)[1]=(1));
296	}
297	}
298
299	if ((1 << limnPolyDataInfoTang) & infoBitFlag) {
300	if (sharpEdge) {
301	ELL_3V_SET(pld->tang + 314, 1, 0, 0)((pld->tang + 314)[0] = (1), (pld->tang + 314)[1] = ( 0), (pld->tang + 314)[2] = (0));
302	ELL_3V_SET(pld->tang + 317, 1, 0, 0)((pld->tang + 317)[0] = (1), (pld->tang + 317)[1] = ( 0), (pld->tang + 317)[2] = (0));
303	ELL_3V_SET(pld->tang + 320, 1, 0, 0)((pld->tang + 320)[0] = (1), (pld->tang + 320)[1] = ( 0), (pld->tang + 320)[2] = (0));
304	ELL_3V_SET(pld->tang + 322, 1, 0, 0)((pld->tang + 322)[0] = (1), (pld->tang + 322)[1] = ( 0), (pld->tang + 322)[2] = (0));
305	ELL_3V_SET(pld->tang + 3* 4, 0, -1, 0)((pld->tang + 3* 4)[0] = (0), (pld->tang + 3* 4)[1] = ( -1), (pld->tang + 3* 4)[2] = (0));
306	ELL_3V_SET(pld->tang + 311, 0, -1, 0)((pld->tang + 311)[0] = (0), (pld->tang + 311)[1] = ( -1), (pld->tang + 311)[2] = (0));
307	ELL_3V_SET(pld->tang + 315, 0, -1, 0)((pld->tang + 315)[0] = (0), (pld->tang + 315)[1] = ( -1), (pld->tang + 315)[2] = (0));
308	ELL_3V_SET(pld->tang + 321, 0, -1, 0)((pld->tang + 321)[0] = (0), (pld->tang + 321)[1] = ( -1), (pld->tang + 321)[2] = (0));
309	ELL_3V_SET(pld->tang + 3* 7, -1, 0, 0)((pld->tang + 3* 7)[0] = (-1), (pld->tang + 3* 7)[1] = ( 0), (pld->tang + 3* 7)[2] = (0));
310	ELL_3V_SET(pld->tang + 310, -1, 0, 0)((pld->tang + 310)[0] = (-1), (pld->tang + 310)[1] = ( 0), (pld->tang + 310)[2] = (0));
311	ELL_3V_SET(pld->tang + 312, -1, 0, 0)((pld->tang + 312)[0] = (-1), (pld->tang + 312)[1] = ( 0), (pld->tang + 312)[2] = (0));
312	ELL_3V_SET(pld->tang + 316, -1, 0, 0)((pld->tang + 316)[0] = (-1), (pld->tang + 316)[1] = ( 0), (pld->tang + 316)[2] = (0));
313	ELL_3V_SET(pld->tang + 3* 1, 0, 1, 0)((pld->tang + 3* 1)[0] = (0), (pld->tang + 3* 1)[1] = ( 1), (pld->tang + 3* 1)[2] = (0));
314	ELL_3V_SET(pld->tang + 3* 8, 0, 1, 0)((pld->tang + 3* 8)[0] = (0), (pld->tang + 3* 8)[1] = ( 1), (pld->tang + 3* 8)[2] = (0));
315	ELL_3V_SET(pld->tang + 313, 0, 1, 0)((pld->tang + 313)[0] = (0), (pld->tang + 313)[1] = ( 1), (pld->tang + 313)[2] = (0));
316	ELL_3V_SET(pld->tang + 318, 0, 1, 0)((pld->tang + 318)[0] = (0), (pld->tang + 318)[1] = ( 1), (pld->tang + 318)[2] = (0));
317	ELL_3V_SET(pld->tang + 3* 2, 1, 0, 0)((pld->tang + 3* 2)[0] = (1), (pld->tang + 3* 2)[1] = ( 0), (pld->tang + 3* 2)[2] = (0));
318	ELL_3V_SET(pld->tang + 3* 5, 1, 0, 0)((pld->tang + 3* 5)[0] = (1), (pld->tang + 3* 5)[1] = ( 0), (pld->tang + 3* 5)[2] = (0));
319	ELL_3V_SET(pld->tang + 319, 1, 0, 0)((pld->tang + 319)[0] = (1), (pld->tang + 319)[1] = ( 0), (pld->tang + 319)[2] = (0));
320	ELL_3V_SET(pld->tang + 323, 1, 0, 0)((pld->tang + 323)[0] = (1), (pld->tang + 323)[1] = ( 0), (pld->tang + 323)[2] = (0));
321	ELL_3V_SET(pld->tang + 3* 0, 1, 0, 0)((pld->tang + 3* 0)[0] = (1), (pld->tang + 3* 0)[1] = ( 0), (pld->tang + 3* 0)[2] = (0));
322	ELL_3V_SET(pld->tang + 3* 3, 1, 0, 0)((pld->tang + 3* 3)[0] = (1), (pld->tang + 3* 3)[1] = ( 0), (pld->tang + 3* 3)[2] = (0));
323	ELL_3V_SET(pld->tang + 3* 6, 1, 0, 0)((pld->tang + 3* 6)[0] = (1), (pld->tang + 3* 6)[1] = ( 0), (pld->tang + 3* 6)[2] = (0));
324	ELL_3V_SET(pld->tang + 3* 9, 1, 0, 0)((pld->tang + 3* 9)[0] = (1), (pld->tang + 3* 9)[1] = ( 0), (pld->tang + 3* 9)[2] = (0));
325	} else {
326	float sn;
327	sn = AIR_CAST(float, 1.0/sqrt(2.0))((float)(1.0/sqrt(2.0)));
328	ELL_3V_SET(pld->tang + 30, -sn, sn, 0)((pld->tang + 30)[0] = (-sn), (pld->tang + 30)[1] = ( sn), (pld->tang + 30)[2] = (0));
329	ELL_3V_SET(pld->tang + 31, sn, sn, 0)((pld->tang + 31)[0] = (sn), (pld->tang + 31)[1] = (sn ), (pld->tang + 31)[2] = (0));
330	ELL_3V_SET(pld->tang + 32, -sn, -sn, 0)((pld->tang + 32)[0] = (-sn), (pld->tang + 32)[1] = ( -sn), (pld->tang + 32)[2] = (0));
331	ELL_3V_SET(pld->tang + 33, sn, -sn, 0)((pld->tang + 33)[0] = (sn), (pld->tang + 33)[1] = (- sn), (pld->tang + 33)[2] = (0));
332	ELL_3V_SET(pld->tang + 34, -sn, -sn, 0)((pld->tang + 34)[0] = (-sn), (pld->tang + 34)[1] = ( -sn), (pld->tang + 34)[2] = (0));
333	ELL_3V_SET(pld->tang + 35, sn, -sn, 0)((pld->tang + 35)[0] = (sn), (pld->tang + 35)[1] = (- sn), (pld->tang + 35)[2] = (0));
334	ELL_3V_SET(pld->tang + 36, -sn, sn, 0)((pld->tang + 36)[0] = (-sn), (pld->tang + 36)[1] = ( sn), (pld->tang + 36)[2] = (0));
335	ELL_3V_SET(pld->tang + 37, sn, sn, 0)((pld->tang + 37)[0] = (sn), (pld->tang + 37)[1] = (sn ), (pld->tang + 37)[2] = (0));
336	}
337	}
338
339	if ((1 << limnPolyDataInfoRGBA) & infoBitFlag) {
340	for (vertIdx=0; vertIdx<pld->rgbaNum; vertIdx++) {
341	ELL_4V_SET(pld->rgba + 4vertIdx, 255, 255, 255, 255)((pld->rgba + 4vertIdx)[0] = (255), (pld->rgba + 4vertIdx )[1] = (255), (pld->rgba + 4vertIdx)[2] = (255), (pld-> rgba + 4*vertIdx)[3] = (255));
342	}
343	}
344
345	return 0;
346	}
347
348	int
349	limnPolyDataOctahedron(limnPolyData *pld,
350	unsigned int infoBitFlag,
351	int sharpEdge) {
352	static const char me[]="limnPolyDataOctahedron";
353	unsigned int vertNum, vertIdx, primNum, indxNum, cnum, ci;
354
355	vertNum = sharpEdge ? 4*6 : 6;
356	primNum = 1;
357	indxNum = 8*3;
358	if (limnPolyDataAlloc(pld, infoBitFlag, vertNum, indxNum, primNum)) {
359	biffAddf(LIMNlimnBiffKey, "%s: couldn't allocate output", me);
360	return 1;
361	}
362	pld->type[0] = limnPrimitiveTriangles;
363	pld->icnt[0] = indxNum;
364
365	vertIdx = 0;
366	cnum = sharpEdge ? 4 : 1;
367	for (ci=0; ci<cnum; ci++) {
368	ELL_4V_SET(pld->xyzw + 4vertIdx, 0, 0, 1, 1)((pld->xyzw + 4vertIdx)[0] = (0), (pld->xyzw + 4vertIdx )[1] = (0), (pld->xyzw + 4vertIdx)[2] = (1), (pld->xyzw + 4vertIdx)[3] = (1)); vertIdx++; / 0 */
369	}
370	for (ci=0; ci<cnum; ci++) {
371	ELL_4V_SET(pld->xyzw + 4vertIdx, 0, 1, 0, 1)((pld->xyzw + 4vertIdx)[0] = (0), (pld->xyzw + 4vertIdx )[1] = (1), (pld->xyzw + 4vertIdx)[2] = (0), (pld->xyzw + 4vertIdx)[3] = (1)); vertIdx++; / 1 */
372	}
373	for (ci=0; ci<cnum; ci++) {
374	ELL_4V_SET(pld->xyzw + 4vertIdx, 1, 0, 0, 1)((pld->xyzw + 4vertIdx)[0] = (1), (pld->xyzw + 4vertIdx )[1] = (0), (pld->xyzw + 4vertIdx)[2] = (0), (pld->xyzw + 4vertIdx)[3] = (1)); vertIdx++; / 2 */
375	}
376	for (ci=0; ci<cnum; ci++) {
377	ELL_4V_SET(pld->xyzw + 4vertIdx, 0, -1, 0, 1)((pld->xyzw + 4vertIdx)[0] = (0), (pld->xyzw + 4vertIdx )[1] = (-1), (pld->xyzw + 4vertIdx)[2] = (0), (pld->xyzw + 4vertIdx)[3] = (1)); vertIdx++; / 3 */
378	}
379	for (ci=0; ci<cnum; ci++) {
380	ELL_4V_SET(pld->xyzw + 4vertIdx, -1, 0, 0, 1)((pld->xyzw + 4vertIdx)[0] = (-1), (pld->xyzw + 4vertIdx )[1] = (0), (pld->xyzw + 4vertIdx)[2] = (0), (pld->xyzw + 4vertIdx)[3] = (1)); vertIdx++; / 4 */
381	}
382	for (ci=0; ci<cnum; ci++) {
383	ELL_4V_SET(pld->xyzw + 4vertIdx, 0, 0, -1, 1)((pld->xyzw + 4vertIdx)[0] = (0), (pld->xyzw + 4vertIdx )[1] = (0), (pld->xyzw + 4vertIdx)[2] = (-1), (pld->xyzw + 4vertIdx)[3] = (1)); vertIdx++; / 5 */
384	}
385
386	vertIdx = 0;
387	if (sharpEdge) {
388	ELL_3V_SET(pld->indx + vertIdx, 0, 8, 4)((pld->indx + vertIdx)[0] = (0), (pld->indx + vertIdx)[ 1] = (8), (pld->indx + vertIdx)[2] = (4)); vertIdx += 3; /* 0 */
389	ELL_3V_SET(pld->indx + vertIdx, 1, 15, 9)((pld->indx + vertIdx)[0] = (1), (pld->indx + vertIdx)[ 1] = (15), (pld->indx + vertIdx)[2] = (9)); vertIdx += 3; /* 1 */
390	ELL_3V_SET(pld->indx + vertIdx, 2, 16, 12)((pld->indx + vertIdx)[0] = (2), (pld->indx + vertIdx)[ 1] = (16), (pld->indx + vertIdx)[2] = (12)); vertIdx += 3; /* 2 */
391	ELL_3V_SET(pld->indx + vertIdx, 3, 6, 19)((pld->indx + vertIdx)[0] = (3), (pld->indx + vertIdx)[ 1] = (6), (pld->indx + vertIdx)[2] = (19)); vertIdx += 3; /* 3 */
392	ELL_3V_SET(pld->indx + vertIdx, 5, 11, 23)((pld->indx + vertIdx)[0] = (5), (pld->indx + vertIdx)[ 1] = (11), (pld->indx + vertIdx)[2] = (23)); vertIdx += 3; /* 4 */
393	ELL_3V_SET(pld->indx + vertIdx, 10, 14, 20)((pld->indx + vertIdx)[0] = (10), (pld->indx + vertIdx) [1] = (14), (pld->indx + vertIdx)[2] = (20)); vertIdx += 3; /* 5 */
394	ELL_3V_SET(pld->indx + vertIdx, 17, 21, 13)((pld->indx + vertIdx)[0] = (17), (pld->indx + vertIdx) [1] = (21), (pld->indx + vertIdx)[2] = (13)); vertIdx += 3; /* 6 */
395	ELL_3V_SET(pld->indx + vertIdx, 7, 22, 18)((pld->indx + vertIdx)[0] = (7), (pld->indx + vertIdx)[ 1] = (22), (pld->indx + vertIdx)[2] = (18)); vertIdx += 3; /* 7 */
396	} else {
397	ELL_3V_SET(pld->indx + vertIdx, 0, 2, 1)((pld->indx + vertIdx)[0] = (0), (pld->indx + vertIdx)[ 1] = (2), (pld->indx + vertIdx)[2] = (1)); vertIdx += 3; /* 0 */
398	ELL_3V_SET(pld->indx + vertIdx, 0, 3, 2)((pld->indx + vertIdx)[0] = (0), (pld->indx + vertIdx)[ 1] = (3), (pld->indx + vertIdx)[2] = (2)); vertIdx += 3; /* 1 */
399	ELL_3V_SET(pld->indx + vertIdx, 0, 4, 3)((pld->indx + vertIdx)[0] = (0), (pld->indx + vertIdx)[ 1] = (4), (pld->indx + vertIdx)[2] = (3)); vertIdx += 3; /* 2 */
400	ELL_3V_SET(pld->indx + vertIdx, 0, 1, 4)((pld->indx + vertIdx)[0] = (0), (pld->indx + vertIdx)[ 1] = (1), (pld->indx + vertIdx)[2] = (4)); vertIdx += 3; /* 3 */
401	ELL_3V_SET(pld->indx + vertIdx, 1, 2, 5)((pld->indx + vertIdx)[0] = (1), (pld->indx + vertIdx)[ 1] = (2), (pld->indx + vertIdx)[2] = (5)); vertIdx += 3; /* 4 */
402	ELL_3V_SET(pld->indx + vertIdx, 2, 3, 5)((pld->indx + vertIdx)[0] = (2), (pld->indx + vertIdx)[ 1] = (3), (pld->indx + vertIdx)[2] = (5)); vertIdx += 3; /* 5 */
403	ELL_3V_SET(pld->indx + vertIdx, 4, 5, 3)((pld->indx + vertIdx)[0] = (4), (pld->indx + vertIdx)[ 1] = (5), (pld->indx + vertIdx)[2] = (3)); vertIdx += 3; /* 6 */
404	ELL_3V_SET(pld->indx + vertIdx, 1, 5, 4)((pld->indx + vertIdx)[0] = (1), (pld->indx + vertIdx)[ 1] = (5), (pld->indx + vertIdx)[2] = (4)); vertIdx += 3; /* 7 */
	Value stored to 'vertIdx' is never read
405	}
406
407	if ((1 << limnPolyDataInfoNorm) & infoBitFlag) {
408	if (sharpEdge) {
409	float cn;
410	cn = AIR_CAST(float, 1.0/sqrt(3))((float)(1.0/sqrt(3)));
411	/* 0 */
412	ELL_3V_SET(pld->norm + 30, cn, cn, cn)((pld->norm + 30)[0] = (cn), (pld->norm + 30)[1] = (cn ), (pld->norm + 30)[2] = (cn));
413	ELL_3V_SET(pld->norm + 38, cn, cn, cn)((pld->norm + 38)[0] = (cn), (pld->norm + 38)[1] = (cn ), (pld->norm + 38)[2] = (cn));
414	ELL_3V_SET(pld->norm + 34, cn, cn, cn)((pld->norm + 34)[0] = (cn), (pld->norm + 34)[1] = (cn ), (pld->norm + 34)[2] = (cn));
415	/* 1 */
416	ELL_3V_SET(pld->norm + 31, cn, -cn, cn)((pld->norm + 31)[0] = (cn), (pld->norm + 31)[1] = (- cn), (pld->norm + 31)[2] = (cn));
417	ELL_3V_SET(pld->norm + 315, cn, -cn, cn)((pld->norm + 315)[0] = (cn), (pld->norm + 315)[1] = ( -cn), (pld->norm + 315)[2] = (cn));
418	ELL_3V_SET(pld->norm + 39, cn, -cn, cn)((pld->norm + 39)[0] = (cn), (pld->norm + 39)[1] = (- cn), (pld->norm + 39)[2] = (cn));
419	/* 2 */
420	ELL_3V_SET(pld->norm + 32, -cn, -cn, cn)((pld->norm + 32)[0] = (-cn), (pld->norm + 32)[1] = ( -cn), (pld->norm + 32)[2] = (cn));
421	ELL_3V_SET(pld->norm + 316, -cn, -cn, cn)((pld->norm + 316)[0] = (-cn), (pld->norm + 316)[1] = (-cn), (pld->norm + 316)[2] = (cn));
422	ELL_3V_SET(pld->norm + 312, -cn, -cn, cn)((pld->norm + 312)[0] = (-cn), (pld->norm + 312)[1] = (-cn), (pld->norm + 312)[2] = (cn));
423	/* 3 */
424	ELL_3V_SET(pld->norm + 33, -cn, cn, cn)((pld->norm + 33)[0] = (-cn), (pld->norm + 33)[1] = ( cn), (pld->norm + 33)[2] = (cn));
425	ELL_3V_SET(pld->norm + 36, -cn, cn, cn)((pld->norm + 36)[0] = (-cn), (pld->norm + 36)[1] = ( cn), (pld->norm + 36)[2] = (cn));
426	ELL_3V_SET(pld->norm + 319, -cn, cn, cn)((pld->norm + 319)[0] = (-cn), (pld->norm + 319)[1] = (cn), (pld->norm + 319)[2] = (cn));
427	/* 4 */
428	ELL_3V_SET(pld->norm + 35, cn, cn, -cn)((pld->norm + 35)[0] = (cn), (pld->norm + 35)[1] = (cn ), (pld->norm + 35)[2] = (-cn));
429	ELL_3V_SET(pld->norm + 311, cn, cn, -cn)((pld->norm + 311)[0] = (cn), (pld->norm + 311)[1] = ( cn), (pld->norm + 311)[2] = (-cn));
430	ELL_3V_SET(pld->norm + 323, cn, cn, -cn)((pld->norm + 323)[0] = (cn), (pld->norm + 323)[1] = ( cn), (pld->norm + 323)[2] = (-cn));
431	/* 5 */
432	ELL_3V_SET(pld->norm + 310, cn, -cn, -cn)((pld->norm + 310)[0] = (cn), (pld->norm + 310)[1] = ( -cn), (pld->norm + 310)[2] = (-cn));
433	ELL_3V_SET(pld->norm + 314, cn, -cn, -cn)((pld->norm + 314)[0] = (cn), (pld->norm + 314)[1] = ( -cn), (pld->norm + 314)[2] = (-cn));
434	ELL_3V_SET(pld->norm + 320, cn, -cn, -cn)((pld->norm + 320)[0] = (cn), (pld->norm + 320)[1] = ( -cn), (pld->norm + 320)[2] = (-cn));
435	/* 6 */
436	ELL_3V_SET(pld->norm + 317, -cn, -cn, -cn)((pld->norm + 317)[0] = (-cn), (pld->norm + 317)[1] = (-cn), (pld->norm + 317)[2] = (-cn));
437	ELL_3V_SET(pld->norm + 321, -cn, -cn, -cn)((pld->norm + 321)[0] = (-cn), (pld->norm + 321)[1] = (-cn), (pld->norm + 321)[2] = (-cn));
438	ELL_3V_SET(pld->norm + 313, -cn, -cn, -cn)((pld->norm + 313)[0] = (-cn), (pld->norm + 313)[1] = (-cn), (pld->norm + 313)[2] = (-cn));
439	/* 7 */
440	ELL_3V_SET(pld->norm + 37, -cn, cn, -cn)((pld->norm + 37)[0] = (-cn), (pld->norm + 37)[1] = ( cn), (pld->norm + 37)[2] = (-cn));
441	ELL_3V_SET(pld->norm + 322, -cn, cn, -cn)((pld->norm + 322)[0] = (-cn), (pld->norm + 322)[1] = (cn), (pld->norm + 322)[2] = (-cn));
442	ELL_3V_SET(pld->norm + 318, -cn, cn, -cn)((pld->norm + 318)[0] = (-cn), (pld->norm + 318)[1] = (cn), (pld->norm + 318)[2] = (-cn));
443	} else {
444	ELL_3V_SET(pld->norm + 30, 0, 0, 1)((pld->norm + 30)[0] = (0), (pld->norm + 30)[1] = (0) , (pld->norm + 30)[2] = (1)); /* 0 */
445	ELL_3V_SET(pld->norm + 31, 0, 1, 0)((pld->norm + 31)[0] = (0), (pld->norm + 31)[1] = (1) , (pld->norm + 31)[2] = (0)); /* 1 */
446	ELL_3V_SET(pld->norm + 32, 1, 0, 0)((pld->norm + 32)[0] = (1), (pld->norm + 32)[1] = (0) , (pld->norm + 32)[2] = (0)); /* 2 */
447	ELL_3V_SET(pld->norm + 33, 0, -1, 0)((pld->norm + 33)[0] = (0), (pld->norm + 33)[1] = (-1 ), (pld->norm + 33)[2] = (0)); /* 3 */
448	ELL_3V_SET(pld->norm + 34, -1, 0, 0)((pld->norm + 34)[0] = (-1), (pld->norm + 34)[1] = (0 ), (pld->norm + 34)[2] = (0)); /* 4 */
449	ELL_3V_SET(pld->norm + 35, 0, 0, -1)((pld->norm + 35)[0] = (0), (pld->norm + 35)[1] = (0) , (pld->norm + 35)[2] = (-1)); /* 5 */
450	}
451	}
452
453	if ((1 << limnPolyDataInfoRGBA) & infoBitFlag) {
454	for (vertIdx=0; vertIdx<pld->rgbaNum; vertIdx++) {
455	ELL_4V_SET(pld->rgba + 4vertIdx, 255, 255, 255, 255)((pld->rgba + 4vertIdx)[0] = (255), (pld->rgba + 4vertIdx )[1] = (255), (pld->rgba + 4vertIdx)[2] = (255), (pld-> rgba + 4*vertIdx)[3] = (255));
456	}
457	}
458	return 0;
459	}
460
461	int
462	limnPolyDataCylinder(limnPolyData *pld,
463	unsigned int infoBitFlag,
464	unsigned int thetaRes, int sharpEdge) {
465	static const char me[]="limnPolyDataCylinder";
466	unsigned int vertNum, primNum, primIdx, indxNum, thetaIdx, vertIdx, blah;
467	double theta, cth, sth, sq2;
468
469	/* sanity bounds */
470	thetaRes = AIR_MAX(3, thetaRes)((3) > (thetaRes) ? (3) : (thetaRes));
471
472	vertNum = sharpEdge ? 4thetaRes : 2thetaRes;
473	primNum = 3;
474	indxNum = 2thetaRes + 2(thetaRes+1); /* 2 fans + 1 strip */
475	if (limnPolyDataAlloc(pld, infoBitFlag, vertNum, indxNum, primNum)) {
476	biffAddf(LIMNlimnBiffKey, "%s: couldn't allocate output", me);
477	return 1;
478	}
479
480	vertIdx = 0;
481	for (blah=0; blah < (sharpEdge ? 2u : 1u); blah++) {
482	for (thetaIdx=0; thetaIdx<thetaRes; thetaIdx++) {
483	theta = AIR_AFFINE(0, thetaIdx, thetaRes, 0, 2AIR_PI)( ((double)(23.14159265358979323846)-(0))*((double)(thetaIdx )-(0)) / ((double)(thetaRes)-(0)) + (0));
484	ELL_4V_SET_TT(pld->xyzw + 4vertIdx, float,((pld->xyzw + 4vertIdx)[0] = ((float)((cos(theta)))), (pld ->xyzw + 4vertIdx)[1] = ((float)((sin(theta)))), (pld-> xyzw + 4vertIdx)[2] = ((float)((1))), (pld->xyzw + 4*vertIdx )[3] = ((float)((1))))
485	cos(theta), sin(theta), 1, 1)((pld->xyzw + 4vertIdx)[0] = ((float)((cos(theta)))), (pld ->xyzw + 4vertIdx)[1] = ((float)((sin(theta)))), (pld-> xyzw + 4vertIdx)[2] = ((float)((1))), (pld->xyzw + 4vertIdx )[3] = ((float)((1))));
486	/*
487	fprintf(stderr, "!%s: vert[%u] = %g %g %g\n", me, vertIdx,
488	(pld->xyzw + 4*vertIdx)[0],
489	(pld->xyzw + 4*vertIdx)[1],
490	(pld->xyzw + 4*vertIdx)[2]);
491	*/
492	++vertIdx;
493	}
494	}
495	for (blah=0; blah < (sharpEdge ? 2u : 1u); blah++) {
496	for (thetaIdx=0; thetaIdx<thetaRes; thetaIdx++) {
497	theta = AIR_AFFINE(0, thetaIdx, thetaRes, 0, 2AIR_PI)( ((double)(23.14159265358979323846)-(0))*((double)(thetaIdx )-(0)) / ((double)(thetaRes)-(0)) + (0));
498	ELL_4V_SET_TT(pld->xyzw + 4vertIdx, float,((pld->xyzw + 4vertIdx)[0] = ((float)((cos(theta)))), (pld ->xyzw + 4vertIdx)[1] = ((float)((sin(theta)))), (pld-> xyzw + 4vertIdx)[2] = ((float)((-1))), (pld->xyzw + 4*vertIdx )[3] = ((float)((1))))
499	cos(theta), sin(theta), -1, 1)((pld->xyzw + 4vertIdx)[0] = ((float)((cos(theta)))), (pld ->xyzw + 4vertIdx)[1] = ((float)((sin(theta)))), (pld-> xyzw + 4vertIdx)[2] = ((float)((-1))), (pld->xyzw + 4vertIdx )[3] = ((float)((1))));
500	/*
501	fprintf(stderr, "!%s: vert[%u] = %g %g %g\n", me, vertIdx,
502	(pld->xyzw + 4*vertIdx)[0],
503	(pld->xyzw + 4*vertIdx)[1],
504	(pld->xyzw + 4*vertIdx)[2]);
505	*/
506	++vertIdx;
507	}
508	}
509
510	primIdx = 0;
511	vertIdx = 0;
512	/* fan on top */
513	/* fprintf(stderr, "!%s: fan on top:\n", me); */
514	for (thetaIdx=0; thetaIdx<thetaRes; thetaIdx++) {
515	/* fprintf(stderr, "!%s: indx[%u] = %u\n", me, vertIdx, thetaIdx); */
516	pld->indx[vertIdx++] = thetaIdx;
517	}
518	pld->type[primIdx] = limnPrimitiveTriangleFan;
519	pld->icnt[primIdx] = thetaRes;
520	primIdx++;
521
522	/* single strip around */
523	/* fprintf(stderr, "!%s: strip around:\n", me); */
524	for (thetaIdx=0; thetaIdx<thetaRes; thetaIdx++) {
525	/*
526	fprintf(stderr, "!%s: indx[%u] = %u\n", me, vertIdx,
527	(sharpEdge ? 1 : 0)*thetaRes + thetaIdx);
528	*/
529	pld->indx[vertIdx++] = (sharpEdge ? 1 : 0)*thetaRes + thetaIdx;
530	/*
531	fprintf(stderr, "!%s: indx[%u] = %u\n", me, vertIdx,
532	(sharpEdge ? 2 : 1)*thetaRes + thetaIdx);
533	*/
534	pld->indx[vertIdx++] = (sharpEdge ? 2 : 1)*thetaRes + thetaIdx;
535	}
536	/*
537	fprintf(stderr, "!%s: indx[%u] = %u\n", me, vertIdx,
538	(sharpEdge ? 1 : 0)*thetaRes);
539	*/
540	pld->indx[vertIdx++] = (sharpEdge ? 1 : 0)*thetaRes;
541	/*
542	fprintf(stderr, "!%s: indx[%u] = %u\n", me, vertIdx,
543	(sharpEdge ? 2 : 1)*thetaRes);
544	*/
545	pld->indx[vertIdx++] = (sharpEdge ? 2 : 1)*thetaRes;
546	pld->type[primIdx] = limnPrimitiveTriangleStrip;
547	pld->icnt[primIdx] = 2*(thetaRes+1);
548	primIdx++;
549
550	/* fan on bottom */
551	/* fprintf(stderr, "!%s: fan on bottom:\n", me); */
552	for (thetaIdx=0; thetaIdx<thetaRes; thetaIdx++) {
553	/*
554	fprintf(stderr, "!%s: indx[%u] = %u\n", me, vertIdx,
555	(sharpEdge ? 3 : 1)*thetaRes + thetaIdx);
556	*/
557	pld->indx[vertIdx++] = (sharpEdge ? 3 : 1)*thetaRes + thetaIdx;
558	}
559	pld->type[primIdx] = limnPrimitiveTriangleFan;
560	pld->icnt[primIdx] = thetaRes;
561	primIdx++;
562
563	if ((1 << limnPolyDataInfoNorm) & infoBitFlag) {
564	sq2 = sqrt(2.0);
565	if (sharpEdge) {
566	for (thetaIdx=0; thetaIdx<thetaRes; thetaIdx++) {
567	theta = AIR_AFFINE(0, thetaIdx, thetaRes, 0, 2AIR_PI)( ((double)(23.14159265358979323846)-(0))*((double)(thetaIdx )-(0)) / ((double)(thetaRes)-(0)) + (0));
568	cth = cos(theta);
569	sth = sin(theta);
570	ELL_3V_SET_TT(pld->norm + 3(thetaIdx + 0thetaRes),((pld->norm + 3(thetaIdx + 0thetaRes))[0] = ((float)((0) )), (pld->norm + 3(thetaIdx + 0thetaRes))[1] = ((float)( (0))), (pld->norm + 3(thetaIdx + 0thetaRes))[2] = ((float )((1))))
571	float, 0, 0, 1)((pld->norm + 3(thetaIdx + 0thetaRes))[0] = ((float)((0) )), (pld->norm + 3(thetaIdx + 0thetaRes))[1] = ((float)( (0))), (pld->norm + 3(thetaIdx + 0thetaRes))[2] = ((float )((1))));
572	ELL_3V_SET_TT(pld->norm + 3(thetaIdx + 1thetaRes),((pld->norm + 3(thetaIdx + 1thetaRes))[0] = ((float)((cth ))), (pld->norm + 3(thetaIdx + 1thetaRes))[1] = ((float) ((sth))), (pld->norm + 3(thetaIdx + 1thetaRes))[2] = ((float )((0))))
573	float, cth, sth, 0)((pld->norm + 3(thetaIdx + 1thetaRes))[0] = ((float)((cth ))), (pld->norm + 3(thetaIdx + 1thetaRes))[1] = ((float) ((sth))), (pld->norm + 3(thetaIdx + 1thetaRes))[2] = ((float )((0))));
574	ELL_3V_SET_TT(pld->norm + 3(thetaIdx + 2thetaRes),((pld->norm + 3(thetaIdx + 2thetaRes))[0] = ((float)((cth ))), (pld->norm + 3(thetaIdx + 2thetaRes))[1] = ((float) ((sth))), (pld->norm + 3(thetaIdx + 2thetaRes))[2] = ((float )((0))))
575	float, cth, sth, 0)((pld->norm + 3(thetaIdx + 2thetaRes))[0] = ((float)((cth ))), (pld->norm + 3(thetaIdx + 2thetaRes))[1] = ((float) ((sth))), (pld->norm + 3(thetaIdx + 2thetaRes))[2] = ((float )((0))));
576	ELL_3V_SET_TT(pld->norm + 3(thetaIdx + 3thetaRes),((pld->norm + 3(thetaIdx + 3thetaRes))[0] = ((float)((0) )), (pld->norm + 3(thetaIdx + 3thetaRes))[1] = ((float)( (0))), (pld->norm + 3(thetaIdx + 3thetaRes))[2] = ((float )((-1))))
577	float, 0, 0, -1)((pld->norm + 3(thetaIdx + 3thetaRes))[0] = ((float)((0) )), (pld->norm + 3(thetaIdx + 3thetaRes))[1] = ((float)( (0))), (pld->norm + 3(thetaIdx + 3thetaRes))[2] = ((float )((-1))));
578	}
579	} else {
580	for (thetaIdx=0; thetaIdx<thetaRes; thetaIdx++) {
581	theta = AIR_AFFINE(0, thetaIdx, thetaRes, 0, 2AIR_PI)( ((double)(23.14159265358979323846)-(0))*((double)(thetaIdx )-(0)) / ((double)(thetaRes)-(0)) + (0));
582	cth = sq2*cos(theta);
583	sth = sq2*sin(theta);
584	ELL_3V_SET_TT(pld->norm + 3(thetaIdx + 0thetaRes), float,((pld->norm + 3(thetaIdx + 0thetaRes))[0] = ((float)((cth ))), (pld->norm + 3(thetaIdx + 0thetaRes))[1] = ((float) ((sth))), (pld->norm + 3(thetaIdx + 0thetaRes))[2] = ((float )((sq2))))
585	cth, sth, sq2)((pld->norm + 3(thetaIdx + 0thetaRes))[0] = ((float)((cth ))), (pld->norm + 3(thetaIdx + 0thetaRes))[1] = ((float) ((sth))), (pld->norm + 3(thetaIdx + 0thetaRes))[2] = ((float )((sq2))));
586	ELL_3V_SET_TT(pld->norm + 3(thetaIdx + 1thetaRes), float,((pld->norm + 3(thetaIdx + 1thetaRes))[0] = ((float)((cth ))), (pld->norm + 3(thetaIdx + 1thetaRes))[1] = ((float) ((sth))), (pld->norm + 3(thetaIdx + 1thetaRes))[2] = ((float )((-sq2))))
587	cth, sth, -sq2)((pld->norm + 3(thetaIdx + 1thetaRes))[0] = ((float)((cth ))), (pld->norm + 3(thetaIdx + 1thetaRes))[1] = ((float) ((sth))), (pld->norm + 3(thetaIdx + 1thetaRes))[2] = ((float )((-sq2))));
588	}
589	}
590	}
591
592	if ((1 << limnPolyDataInfoTex2) & infoBitFlag) {
593	if (sharpEdge) {
594	for (thetaIdx=0; thetaIdx<thetaRes; thetaIdx++) {
595	theta = AIR_AFFINE(0, thetaIdx, thetaRes, 0, 1)( ((double)(1)-(0))*((double)(thetaIdx)-(0)) / ((double)(thetaRes )-(0)) + (0));
596	ELL_2V_SET_TT(pld->tex2 + 2(thetaIdx + 0thetaRes), float, theta, 0)((pld->tex2 + 2(thetaIdx + 0thetaRes))[0] = ((float)((theta ))), (pld->tex2 + 2(thetaIdx + 0thetaRes))[1] = ((float) ((0))));
597	ELL_2V_SET_TT(pld->tex2 + 2(thetaIdx + 1thetaRes), float, theta, 0)((pld->tex2 + 2(thetaIdx + 1thetaRes))[0] = ((float)((theta ))), (pld->tex2 + 2(thetaIdx + 1thetaRes))[1] = ((float) ((0))));
598	ELL_2V_SET_TT(pld->tex2 + 2(thetaIdx + 2thetaRes), float, theta, 1)((pld->tex2 + 2(thetaIdx + 2thetaRes))[0] = ((float)((theta ))), (pld->tex2 + 2(thetaIdx + 2thetaRes))[1] = ((float) ((1))));
599	ELL_2V_SET_TT(pld->tex2 + 2(thetaIdx + 3thetaRes), float, theta, 1)((pld->tex2 + 2(thetaIdx + 3thetaRes))[0] = ((float)((theta ))), (pld->tex2 + 2(thetaIdx + 3thetaRes))[1] = ((float) ((1))));
600	}
601	} else {
602	for (thetaIdx=0; thetaIdx<thetaRes; thetaIdx++) {
603	theta = AIR_AFFINE(0, thetaIdx, thetaRes, 0, 1)( ((double)(1)-(0))*((double)(thetaIdx)-(0)) / ((double)(thetaRes )-(0)) + (0));
604	ELL_2V_SET_TT(pld->tex2 + 2(thetaIdx + 0thetaRes), float, theta, 0)((pld->tex2 + 2(thetaIdx + 0thetaRes))[0] = ((float)((theta ))), (pld->tex2 + 2(thetaIdx + 0thetaRes))[1] = ((float) ((0))));
605	ELL_2V_SET_TT(pld->tex2 + 2(thetaIdx + 1thetaRes), float, theta, 1)((pld->tex2 + 2(thetaIdx + 1thetaRes))[0] = ((float)((theta ))), (pld->tex2 + 2(thetaIdx + 1thetaRes))[1] = ((float) ((1))));
606	}
607	}
608	}
609
610	if ((1 << limnPolyDataInfoTang) & infoBitFlag) {
611	float xx, yy, tang[3], tlen;
612	if (sharpEdge) {
613	for (thetaIdx=0; thetaIdx<thetaRes; thetaIdx++) {
614	xx = (pld->xyzw + 4(thetaIdx + 0thetaRes))[0];
615	yy = (pld->xyzw + 4(thetaIdx + 0thetaRes))[1];
616	ELL_3V_SET(tang, -yy, xx, 0.0)((tang)[0] = (-yy), (tang)[1] = (xx), (tang)[2] = (0.0));
617	ELL_3V_NORM_TT(tang, float, tang, tlen)(tlen = ((float)((sqrt((((tang))[0]((tang))[0] + ((tang))[1] ((tang))[1] + ((tang))[2]((tang))[2]))))), ((tang)[0] = ((float )((1.0/tlen)(tang)[0])), (tang)[1] = ((float)((1.0/tlen)(tang )[1])), (tang)[2] = ((float)((1.0/tlen)(tang)[2]))));
618	ELL_3V_COPY(pld->tang + 3(thetaIdx + 0thetaRes), tang)((pld->tang + 3(thetaIdx + 0thetaRes))[0] = (tang)[0], ( pld->tang + 3(thetaIdx + 0thetaRes))[1] = (tang)[1], (pld ->tang + 3(thetaIdx + 0thetaRes))[2] = (tang)[2]);
619	ELL_3V_COPY(pld->tang + 3(thetaIdx + 1thetaRes), tang)((pld->tang + 3(thetaIdx + 1thetaRes))[0] = (tang)[0], ( pld->tang + 3(thetaIdx + 1thetaRes))[1] = (tang)[1], (pld ->tang + 3(thetaIdx + 1thetaRes))[2] = (tang)[2]);
620	ELL_3V_COPY(pld->tang + 3(thetaIdx + 2thetaRes), tang)((pld->tang + 3(thetaIdx + 2thetaRes))[0] = (tang)[0], ( pld->tang + 3(thetaIdx + 2thetaRes))[1] = (tang)[1], (pld ->tang + 3(thetaIdx + 2thetaRes))[2] = (tang)[2]);
621	ELL_3V_COPY(pld->tang + 3(thetaIdx + 3thetaRes), tang)((pld->tang + 3(thetaIdx + 3thetaRes))[0] = (tang)[0], ( pld->tang + 3(thetaIdx + 3thetaRes))[1] = (tang)[1], (pld ->tang + 3(thetaIdx + 3thetaRes))[2] = (tang)[2]);
622	}
623	} else {
624	for (thetaIdx=0; thetaIdx<thetaRes; thetaIdx++) {
625	xx = (pld->xyzw + 4(thetaIdx + 0thetaRes))[0];
626	yy = (pld->xyzw + 4(thetaIdx + 0thetaRes))[1];
627	ELL_3V_SET(tang, -yy, xx, 0.0)((tang)[0] = (-yy), (tang)[1] = (xx), (tang)[2] = (0.0));
628	ELL_3V_NORM_TT(tang, float, tang, tlen)(tlen = ((float)((sqrt((((tang))[0]((tang))[0] + ((tang))[1] ((tang))[1] + ((tang))[2]((tang))[2]))))), ((tang)[0] = ((float )((1.0/tlen)(tang)[0])), (tang)[1] = ((float)((1.0/tlen)(tang )[1])), (tang)[2] = ((float)((1.0/tlen)(tang)[2]))));
629	ELL_3V_COPY(pld->tang + 3(thetaIdx + 0thetaRes), tang)((pld->tang + 3(thetaIdx + 0thetaRes))[0] = (tang)[0], ( pld->tang + 3(thetaIdx + 0thetaRes))[1] = (tang)[1], (pld ->tang + 3(thetaIdx + 0thetaRes))[2] = (tang)[2]);
630	ELL_3V_COPY(pld->tang + 3(thetaIdx + 1thetaRes), tang)((pld->tang + 3(thetaIdx + 1thetaRes))[0] = (tang)[0], ( pld->tang + 3(thetaIdx + 1thetaRes))[1] = (tang)[1], (pld ->tang + 3(thetaIdx + 1thetaRes))[2] = (tang)[2]);
631	}
632	}
633	}
634
635	if ((1 << limnPolyDataInfoRGBA) & infoBitFlag) {
636	for (vertIdx=0; vertIdx<pld->rgbaNum; vertIdx++) {
637	ELL_4V_SET(pld->rgba + 4vertIdx, 255, 255, 255, 255)((pld->rgba + 4vertIdx)[0] = (255), (pld->rgba + 4vertIdx )[1] = (255), (pld->rgba + 4vertIdx)[2] = (255), (pld-> rgba + 4*vertIdx)[3] = (255));
638	}
639	}
640
641	return 0;
642	}
643
644	int
645	limnPolyDataCone(limnPolyData *pld,
646	unsigned int infoBitFlag,
647	unsigned int thetaRes, int sharpEdge) {
648	static const char me[]="limnPolyDataCone";
649	unsigned int vertNum, primNum, primIdx, indxNum, thetaIdx, vertIdx, blah;
650	double theta, cth, sth;
651
652	/* sanity bounds */
653	thetaRes = AIR_MAX(3, thetaRes)((3) > (thetaRes) ? (3) : (thetaRes));
654
655	vertNum = sharpEdge ? 3*thetaRes : 1 + thetaRes;
656	primNum = 2;
657	indxNum = thetaRes + 2(thetaRes+1); / 1 fans + 1 strip */
658	if (limnPolyDataAlloc(pld, infoBitFlag, vertNum, indxNum, primNum)) {
659	biffAddf(LIMNlimnBiffKey, "%s: couldn't allocate output", me);
660	return 1;
661	}
662
663	/* top point(s) */
664	vertIdx = 0;
665	if (sharpEdge) {
666	for (thetaIdx=0; thetaIdx<thetaRes; thetaIdx++) {
667	ELL_4V_SET_TT(pld->xyzw + 4vertIdx, float,((pld->xyzw + 4vertIdx)[0] = ((float)((0))), (pld->xyzw + 4vertIdx)[1] = ((float)((0))), (pld->xyzw + 4vertIdx) [2] = ((float)((1))), (pld->xyzw + 4*vertIdx)[3] = ((float )((1))))
668	0, 0, 1, 1)((pld->xyzw + 4vertIdx)[0] = ((float)((0))), (pld->xyzw + 4vertIdx)[1] = ((float)((0))), (pld->xyzw + 4vertIdx) [2] = ((float)((1))), (pld->xyzw + 4vertIdx)[3] = ((float )((1))));
669	++vertIdx;
670	}
671	} else {
672	ELL_4V_SET_TT(pld->xyzw + 4vertIdx, float,((pld->xyzw + 4vertIdx)[0] = ((float)((0))), (pld->xyzw + 4vertIdx)[1] = ((float)((0))), (pld->xyzw + 4vertIdx) [2] = ((float)((1))), (pld->xyzw + 4*vertIdx)[3] = ((float )((1))))
673	0, 0, 1, 1)((pld->xyzw + 4vertIdx)[0] = ((float)((0))), (pld->xyzw + 4vertIdx)[1] = ((float)((0))), (pld->xyzw + 4vertIdx) [2] = ((float)((1))), (pld->xyzw + 4vertIdx)[3] = ((float )((1))));
674	++vertIdx;
675	}
676	/* bottom edge */
677	for (blah=0; blah < (sharpEdge ? 2u : 1u); blah++) {
678	for (thetaIdx=0; thetaIdx<thetaRes; thetaIdx++) {
679	theta = AIR_AFFINE(0, thetaIdx, thetaRes, 0, 2AIR_PI)( ((double)(23.14159265358979323846)-(0))*((double)(thetaIdx )-(0)) / ((double)(thetaRes)-(0)) + (0));
680	ELL_4V_SET_TT(pld->xyzw + 4vertIdx, float,((pld->xyzw + 4vertIdx)[0] = ((float)((cos(theta)))), (pld ->xyzw + 4vertIdx)[1] = ((float)((sin(theta)))), (pld-> xyzw + 4vertIdx)[2] = ((float)((-1))), (pld->xyzw + 4*vertIdx )[3] = ((float)((1))))
681	cos(theta), sin(theta), -1, 1)((pld->xyzw + 4vertIdx)[0] = ((float)((cos(theta)))), (pld ->xyzw + 4vertIdx)[1] = ((float)((sin(theta)))), (pld-> xyzw + 4vertIdx)[2] = ((float)((-1))), (pld->xyzw + 4vertIdx )[3] = ((float)((1))));
682	++vertIdx;
683	}
684	}
685
686	primIdx = 0;
687	vertIdx = 0;
688	/* single strip around */
689	for (thetaIdx=0; thetaIdx<thetaRes; thetaIdx++) {
690	pld->indx[vertIdx++] = sharpEdge ? thetaIdx : 0;
691	pld->indx[vertIdx++] = (sharpEdge ? thetaRes : 1) + thetaIdx;
692	}
693	pld->indx[vertIdx++] = 0;
694	pld->indx[vertIdx++] = sharpEdge ? thetaRes : 1;
695	pld->type[primIdx] = limnPrimitiveTriangleStrip;
696	pld->icnt[primIdx] = 2*(thetaRes+1);
697	primIdx++;
698
699	/* fan on bottom */
700	for (thetaIdx=0; thetaIdx<thetaRes; thetaIdx++) {
701	pld->indx[vertIdx++] = (sharpEdge ? 2*thetaRes : 1) + thetaIdx;
702	}
703	pld->type[primIdx] = limnPrimitiveTriangleFan;
704	pld->icnt[primIdx] = thetaRes;
705	primIdx++;
706
707	if ((1 << limnPolyDataInfoNorm) & infoBitFlag) {
708	double isq3;
709	isq3 = 1/sqrt(3.0);
710	if (sharpEdge) {
711	for (thetaIdx=0; thetaIdx<thetaRes; thetaIdx++) {
712	theta = AIR_AFFINE(0, thetaIdx, thetaRes, 0, 2AIR_PI)( ((double)(23.14159265358979323846)-(0))*((double)(thetaIdx )-(0)) / ((double)(thetaRes)-(0)) + (0));
713	cth = cos(theta);
714	sth = sin(theta);
715	ELL_3V_SET_TT(pld->norm + 3(thetaIdx + 0thetaRes),((pld->norm + 3(thetaIdx + 0thetaRes))[0] = ((float)((cth isq3))), (pld->norm + 3(thetaIdx + 0thetaRes))[1] = ((float )((sthisq3))), (pld->norm + 3(thetaIdx + 0thetaRes))[2] = ((float)((isq3))))
716	float, cthisq3, sthisq3, isq3)((pld->norm + 3(thetaIdx + 0thetaRes))[0] = ((float)((cth isq3))), (pld->norm + 3(thetaIdx + 0thetaRes))[1] = ((float )((sthisq3))), (pld->norm + 3(thetaIdx + 0thetaRes))[2] = ((float)((isq3))));
717	ELL_3V_SET_TT(pld->norm + 3(thetaIdx + 1thetaRes),((pld->norm + 3(thetaIdx + 1thetaRes))[0] = ((float)((cth isq3))), (pld->norm + 3(thetaIdx + 1thetaRes))[1] = ((float )((sthisq3))), (pld->norm + 3(thetaIdx + 1thetaRes))[2] = ((float)((isq3))))
718	float, cthisq3, sthisq3, isq3)((pld->norm + 3(thetaIdx + 1thetaRes))[0] = ((float)((cth isq3))), (pld->norm + 3(thetaIdx + 1thetaRes))[1] = ((float )((sthisq3))), (pld->norm + 3(thetaIdx + 1thetaRes))[2] = ((float)((isq3))));
719	ELL_3V_SET_TT(pld->norm + 3(thetaIdx + 2thetaRes),((pld->norm + 3(thetaIdx + 2thetaRes))[0] = ((float)((0) )), (pld->norm + 3(thetaIdx + 2thetaRes))[1] = ((float)( (0))), (pld->norm + 3(thetaIdx + 2thetaRes))[2] = ((float )((-1))))
720	float, 0, 0, -1)((pld->norm + 3(thetaIdx + 2thetaRes))[0] = ((float)((0) )), (pld->norm + 3(thetaIdx + 2thetaRes))[1] = ((float)( (0))), (pld->norm + 3(thetaIdx + 2thetaRes))[2] = ((float )((-1))));
721	}
722	} else {
723	ELL_3V_SET_TT(pld->norm + 3(0), float,((pld->norm + 3(0))[0] = ((float)((0))), (pld->norm + 3 (0))[1] = ((float)((0))), (pld->norm + 3(0))[2] = ((float )((1))))
724	0, 0, 1)((pld->norm + 3(0))[0] = ((float)((0))), (pld->norm + 3 (0))[1] = ((float)((0))), (pld->norm + 3*(0))[2] = ((float )((1))));
725	for (thetaIdx=0; thetaIdx<thetaRes; thetaIdx++) {
726	theta = AIR_AFFINE(0, thetaIdx, thetaRes, 0, 2AIR_PI)( ((double)(23.14159265358979323846)-(0))*((double)(thetaIdx )-(0)) / ((double)(thetaRes)-(0)) + (0));
727	cth = cos(theta);
728	sth = sin(theta);
729	ELL_3V_SET_TT(pld->norm + 3(thetaIdx + 1),((pld->norm + 3(thetaIdx + 1))[0] = ((float)((cthisq3))) , (pld->norm + 3(thetaIdx + 1))[1] = ((float)((sthisq3)) ), (pld->norm + 3(thetaIdx + 1))[2] = ((float)((-isq3))))
730	float, cthisq3, sthisq3, -isq3)((pld->norm + 3(thetaIdx + 1))[0] = ((float)((cthisq3))) , (pld->norm + 3(thetaIdx + 1))[1] = ((float)((sthisq3)) ), (pld->norm + 3(thetaIdx + 1))[2] = ((float)((-isq3)))); / close enough */
731	}
732	}
733	}
734
735	if ((1 << limnPolyDataInfoRGBA) & infoBitFlag) {
736	for (vertIdx=0; vertIdx<pld->rgbaNum; vertIdx++) {
737	ELL_4V_SET(pld->rgba + 4vertIdx, 255, 255, 255, 255)((pld->rgba + 4vertIdx)[0] = (255), (pld->rgba + 4vertIdx )[1] = (255), (pld->rgba + 4vertIdx)[2] = (255), (pld-> rgba + 4*vertIdx)[3] = (255));
738	}
739	}
740
741	return 0;
742	}
743
744	/*
745	******** limnPolyDataSuperquadric
746	**
747	** makes a superquadric parameterized around the Z axis
748	*/
749	int
750	limnPolyDataSuperquadric(limnPolyData *pld,
751	unsigned int infoBitFlag,
752	float alpha, float beta,
753	unsigned int thetaRes, unsigned int phiRes) {
754	static const char me[]="limnPolyDataSuperquadric";
755	unsigned int vertIdx, vertNum, fanNum, stripNum, primNum, indxNum,
756	thetaIdx, phiIdx, primIdx;
757	double theta, phi;
758
759	/* sanity bounds */
760	thetaRes = AIR_MAX(3u, thetaRes)((3u) > (thetaRes) ? (3u) : (thetaRes));
761	phiRes = AIR_MAX(2u, phiRes)((2u) > (phiRes) ? (2u) : (phiRes));
762	alpha = AIR_MAX(0.00001f, alpha)((0.00001f) > (alpha) ? (0.00001f) : (alpha));
763	beta = AIR_MAX(0.00001f, beta)((0.00001f) > (beta) ? (0.00001f) : (beta));
764
765	vertNum = 2 + thetaRes*(phiRes-1);
766	fanNum = 2;
767	stripNum = phiRes-2;
768	primNum = fanNum + stripNum;
769	indxNum = (thetaRes+2)fanNum + 2(thetaRes+1)*stripNum;
770	if (limnPolyDataAlloc(pld, infoBitFlag, vertNum, indxNum, primNum)) {
771	biffAddf(LIMNlimnBiffKey, "%s: couldn't allocate output", me);
772	return 1;
773	}
774
775	vertIdx = 0;
776	ELL_4V_SET(pld->xyzw + 4vertIdx, 0, 0, 1, 1)((pld->xyzw + 4vertIdx)[0] = (0), (pld->xyzw + 4vertIdx )[1] = (0), (pld->xyzw + 4vertIdx)[2] = (1), (pld->xyzw + 4*vertIdx)[3] = (1));
777	if ((1 << limnPolyDataInfoNorm) & infoBitFlag) {
778	ELL_3V_SET(pld->norm + 3vertIdx, 0, 0, 1)((pld->norm + 3vertIdx)[0] = (0), (pld->norm + 3vertIdx )[1] = (0), (pld->norm + 3vertIdx)[2] = (1));
779	}
780	++vertIdx;
781	for (phiIdx=1; phiIdx<phiRes; phiIdx++) {
782	double cost, sint, cosp, sinp;
783	phi = AIR_AFFINE(0, phiIdx, phiRes, 0, AIR_PI)( ((double)(3.14159265358979323846)-(0))*((double)(phiIdx)-(0 )) / ((double)(phiRes)-(0)) + (0));
784	cosp = cos(phi);
785	sinp = sin(phi);
786	for (thetaIdx=0; thetaIdx<thetaRes; thetaIdx++) {
787	theta = AIR_AFFINE(0, thetaIdx, thetaRes, 0, 2AIR_PI)( ((double)(23.14159265358979323846)-(0))*((double)(thetaIdx )-(0)) / ((double)(thetaRes)-(0)) + (0));
788	cost = cos(theta);
789	sint = sin(theta);
790	ELL_4V_SET_TT(pld->xyzw + 4vertIdx, float,((pld->xyzw + 4vertIdx)[0] = ((float)((airSgnPow(cost,alpha ) * airSgnPow(sinp,beta)))), (pld->xyzw + 4vertIdx)[1] = ( (float)((airSgnPow(sint,alpha) airSgnPow(sinp,beta)))), (pld ->xyzw + 4vertIdx)[2] = ((float)((airSgnPow(cosp,beta)))) , (pld->xyzw + 4vertIdx)[3] = ((float)((1.0))))
791	airSgnPow(cost,alpha) * airSgnPow(sinp,beta),((pld->xyzw + 4vertIdx)[0] = ((float)((airSgnPow(cost,alpha ) airSgnPow(sinp,beta)))), (pld->xyzw + 4vertIdx)[1] = ( (float)((airSgnPow(sint,alpha) airSgnPow(sinp,beta)))), (pld ->xyzw + 4vertIdx)[2] = ((float)((airSgnPow(cosp,beta)))) , (pld->xyzw + 4vertIdx)[3] = ((float)((1.0))))
792	airSgnPow(sint,alpha) * airSgnPow(sinp,beta),((pld->xyzw + 4vertIdx)[0] = ((float)((airSgnPow(cost,alpha ) airSgnPow(sinp,beta)))), (pld->xyzw + 4vertIdx)[1] = ( (float)((airSgnPow(sint,alpha) airSgnPow(sinp,beta)))), (pld ->xyzw + 4vertIdx)[2] = ((float)((airSgnPow(cosp,beta)))) , (pld->xyzw + 4vertIdx)[3] = ((float)((1.0))))
793	airSgnPow(cosp,beta),((pld->xyzw + 4vertIdx)[0] = ((float)((airSgnPow(cost,alpha ) airSgnPow(sinp,beta)))), (pld->xyzw + 4vertIdx)[1] = ( (float)((airSgnPow(sint,alpha) airSgnPow(sinp,beta)))), (pld ->xyzw + 4vertIdx)[2] = ((float)((airSgnPow(cosp,beta)))) , (pld->xyzw + 4vertIdx)[3] = ((float)((1.0))))
794	1.0)((pld->xyzw + 4vertIdx)[0] = ((float)((airSgnPow(cost,alpha ) airSgnPow(sinp,beta)))), (pld->xyzw + 4vertIdx)[1] = ( (float)((airSgnPow(sint,alpha) airSgnPow(sinp,beta)))), (pld ->xyzw + 4vertIdx)[2] = ((float)((airSgnPow(cosp,beta)))) , (pld->xyzw + 4vertIdx)[3] = ((float)((1.0))));
795	if ((1 << limnPolyDataInfoNorm) & infoBitFlag) {
796	if (1 == alpha && 1 == beta) {
797	ELL_3V_COPY(pld->norm + 3vertIdx, pld->xyzw + 4vertIdx)((pld->norm + 3vertIdx)[0] = (pld->xyzw + 4vertIdx)[0 ], (pld->norm + 3vertIdx)[1] = (pld->xyzw + 4vertIdx) [1], (pld->norm + 3vertIdx)[2] = (pld->xyzw + 4vertIdx )[2]);
798	} else {
799	ELL_3V_SET_TT(pld->norm + 3vertIdx, float,((pld->norm + 3vertIdx)[0] = ((float)((2airSgnPow(cost,2 -alpha)airSgnPow(sinp,2-beta)/beta))), (pld->norm + 3vertIdx )[1] = ((float)((2airSgnPow(sint,2-alpha)airSgnPow(sinp,2-beta )/beta))), (pld->norm + 3vertIdx)[2] = ((float)((2*airSgnPow (cosp,2-beta)/beta))))
800	2airSgnPow(cost,2-alpha)airSgnPow(sinp,2-beta)/beta,((pld->norm + 3vertIdx)[0] = ((float)((2airSgnPow(cost,2 -alpha)airSgnPow(sinp,2-beta)/beta))), (pld->norm + 3vertIdx )[1] = ((float)((2airSgnPow(sint,2-alpha)airSgnPow(sinp,2-beta )/beta))), (pld->norm + 3vertIdx)[2] = ((float)((2airSgnPow (cosp,2-beta)/beta))))
801	2airSgnPow(sint,2-alpha)airSgnPow(sinp,2-beta)/beta,((pld->norm + 3vertIdx)[0] = ((float)((2airSgnPow(cost,2 -alpha)airSgnPow(sinp,2-beta)/beta))), (pld->norm + 3vertIdx )[1] = ((float)((2airSgnPow(sint,2-alpha)airSgnPow(sinp,2-beta )/beta))), (pld->norm + 3vertIdx)[2] = ((float)((2airSgnPow (cosp,2-beta)/beta))))
802	2airSgnPow(cosp,2-beta)/beta)((pld->norm + 3vertIdx)[0] = ((float)((2airSgnPow(cost,2 -alpha)airSgnPow(sinp,2-beta)/beta))), (pld->norm + 3vertIdx )[1] = ((float)((2airSgnPow(sint,2-alpha)airSgnPow(sinp,2-beta )/beta))), (pld->norm + 3vertIdx)[2] = ((float)((2*airSgnPow (cosp,2-beta)/beta))));
803	}
804	}
805	++vertIdx;
806	}
807	}
808	ELL_4V_SET(pld->xyzw + 4vertIdx, 0, 0, -1, 1)((pld->xyzw + 4vertIdx)[0] = (0), (pld->xyzw + 4vertIdx )[1] = (0), (pld->xyzw + 4vertIdx)[2] = (-1), (pld->xyzw + 4*vertIdx)[3] = (1));
809	if ((1 << limnPolyDataInfoNorm) & infoBitFlag) {
810	ELL_3V_SET(pld->norm + 3vertIdx, 0, 0, -1)((pld->norm + 3vertIdx)[0] = (0), (pld->norm + 3vertIdx )[1] = (0), (pld->norm + 3vertIdx)[2] = (-1));
811	}
812	++vertIdx;
813
814	/* triangle fan at top */
815	vertIdx = 0;
816	primIdx = 0;
817	pld->indx[vertIdx++] = 0;
818	for (thetaIdx=0; thetaIdx<thetaRes; thetaIdx++) {
819	pld->indx[vertIdx++] = thetaIdx + 1;
820	}
821	pld->indx[vertIdx++] = 1;
822	pld->type[primIdx] = limnPrimitiveTriangleFan;
823	pld->icnt[primIdx++] = thetaRes + 2;
824
825	/* tristrips around */
826	for (phiIdx=1; phiIdx<phiRes-1; phiIdx++) {
827	/*
828	fprintf(stderr, "!%s: prim[%u] = vert[%u] =", me, primIdx, vertIdx);
829	*/
830	for (thetaIdx=0; thetaIdx<thetaRes; thetaIdx++) {
831	/*
832	fprintf(stderr, " [%u %u] %u %u",
833	vertIdx, vertIdx + 1,
834	(phiIdx-1)*thetaRes + thetaIdx + 1,
835	phiIdx*thetaRes + thetaIdx + 1);
836	*/
837	pld->indx[vertIdx++] = (phiIdx-1)*thetaRes + thetaIdx + 1;
838	pld->indx[vertIdx++] = phiIdx*thetaRes + thetaIdx + 1;
839	}
840	/*
841	fprintf(stderr, " [%u %u] %u %u (%u verts)\n",
842	vertIdx, vertIdx + 1,
843	(phiIdx-1)*thetaRes + 1,
844	phiIdxthetaRes + 1, 2(thetaRes+1));
845	*/
846	pld->indx[vertIdx++] = (phiIdx-1)*thetaRes + 1;
847	pld->indx[vertIdx++] = phiIdx*thetaRes + 1;
848	pld->type[primIdx] = limnPrimitiveTriangleStrip;
849	pld->icnt[primIdx++] = 2*(thetaRes+1);
850	}
851
852	/* triangle fan at bottom */
853	pld->indx[vertIdx++] = vertNum-1;
854	for (thetaIdx=0; thetaIdx<thetaRes; thetaIdx++) {
855	pld->indx[vertIdx++] = thetaRes*(phiRes-2) + thetaRes - thetaIdx;
856	}
857	pld->indx[vertIdx++] = thetaRes*(phiRes-2) + thetaRes;
858	pld->type[primIdx] = limnPrimitiveTriangleFan;
859	pld->icnt[primIdx++] = thetaRes + 2;
860
861	if ((1 << limnPolyDataInfoRGBA) & infoBitFlag) {
862	for (vertIdx=0; vertIdx<pld->rgbaNum; vertIdx++) {
863	ELL_4V_SET(pld->rgba + 4vertIdx, 255, 255, 255, 255)((pld->rgba + 4vertIdx)[0] = (255), (pld->rgba + 4vertIdx )[1] = (255), (pld->rgba + 4vertIdx)[2] = (255), (pld-> rgba + 4*vertIdx)[3] = (255));
864	}
865	}
866
867	return 0;
868	}
869
870	/*
871	******** limnPolyDataSpiralBetterquadric
872	**
873	** puts a "betterquadric" into a single spiral triangle strip
874	*/
875	int
876	limnPolyDataSpiralBetterquadric(limnPolyData *pld,
877	unsigned int infoBitFlag,
878	float alpha, float beta, float cee,
879	float minRad,
880	unsigned int thetaRes, unsigned int phiRes) {
881	static const char me[]="limnPolyDataSpiralBetterquadric";
882	unsigned int vertIdx, vertNum, indxNum, thetaIdx, phiIdx;
883
884	/* sanity bounds */
885	thetaRes = AIR_MAX(3u, thetaRes)((3u) > (thetaRes) ? (3u) : (thetaRes));
886	phiRes = AIR_MAX(2u, phiRes)((2u) > (phiRes) ? (2u) : (phiRes));
887	alpha = AIR_MAX(0.00001f, alpha)((0.00001f) > (alpha) ? (0.00001f) : (alpha));
888	beta = AIR_MAX(0.00001f, beta)((0.00001f) > (beta) ? (0.00001f) : (beta));
889
890	vertNum = thetaRes*phiRes + 1;
891	indxNum = 2thetaRes(phiRes+1) - 2;
892	if (limnPolyDataAlloc(pld, infoBitFlag, vertNum, indxNum, 1)) {
893	biffAddf(LIMNlimnBiffKey, "%s: couldn't allocate output", me);
894	return 1;
895	}
896
897	vertIdx = 0;
898	for (phiIdx=0; phiIdx<phiRes; phiIdx++) {
899	for (thetaIdx=0; thetaIdx<thetaRes; thetaIdx++) {
900	double cost, sint, cosp, sinp, xx, yy, zz;
901	double phi = (AIR_AFFINE(0, phiIdx, phiRes, 0, AIR_PI)( ((double)(3.14159265358979323846)-(0))*((double)(phiIdx)-(0 )) / ((double)(phiRes)-(0)) + (0))
902	+ AIR_AFFINE(0, thetaIdx, thetaRes, 0, AIR_PI)( ((double)(3.14159265358979323846)-(0))*((double)(thetaIdx)- (0)) / ((double)(thetaRes)-(0)) + (0))/phiRes);
903	double theta = AIR_AFFINE(0, thetaIdx, thetaRes, 0.0, 2AIR_PI)( ((double)(23.14159265358979323846)-(0.0))*((double)(thetaIdx )-(0)) / ((double)(thetaRes)-(0)) + (0.0));
904	cosp = cos(phi);
905	sinp = sin(phi);
906	cost = cos(theta);
907	sint = sin(theta);
908	xx = airSgnPow(cost,alpha) * airSgnPow(sinp,beta);
909	yy = airSgnPow(sint,alpha) * airSgnPow(sinp,beta);
910	zz = airSgnPow(cosp,beta);
911	if (cee != beta) {
912	/* expand profile along y axis to match having beta=cee */
913	double yp, ymax;
914	yp = airSgnPow(sin(acos(airSgnPow(zz, 1/cee))), cee);
915	ymax = airSgnPow(sinp, beta);
916	if (ymax) {
917	yy *= yp/ymax;
918	}
919	}
920	ELL_4V_SET_TT(pld->xyzw + 4vertIdx, float, xx, yy, zz, 1.0)((pld->xyzw + 4vertIdx)[0] = ((float)((xx))), (pld->xyzw + 4vertIdx)[1] = ((float)((yy))), (pld->xyzw + 4vertIdx )[2] = ((float)((zz))), (pld->xyzw + 4*vertIdx)[3] = ((float )((1.0))));
921	if (minRad > 0.0) {
922	/* add thickness to small radius */
923	double rr;
924	xx = (pld->xyzw + 4*vertIdx)[0];
925	yy = (pld->xyzw + 4*vertIdx)[1];
926	rr = sqrt(xxxx + yyyy);
927	if (rr) {
928	(pld->xyzw + 4vertIdx)[0] = AIR_CAST(float, AIR_AFFINE(0, rr, 1, minRad/rr, 1/rr))((float)(( ((double)(1/rr)-(minRad/rr))*((double)(rr)-(0)) / ( (double)(1)-(0)) + (minRad/rr))));
929	(pld->xyzw + 4vertIdx)[1] = AIR_CAST(float, AIR_AFFINE(0, rr, 1, minRad/rr, 1/rr))((float)(( ((double)(1/rr)-(minRad/rr))*((double)(rr)-(0)) / ( (double)(1)-(0)) + (minRad/rr))));
930	}
931	}
932	if (((1 << limnPolyDataInfoNorm) & infoBitFlag)
933	\|\| ((1 << limnPolyDataInfoTang) & infoBitFlag)) {
934	double norm[3], nlen;
935	if (1 == alpha && 1 == beta) {
936	ELL_3V_COPY(norm, pld->xyzw + 4vertIdx)((norm)[0] = (pld->xyzw + 4vertIdx)[0], (norm)[1] = (pld-> xyzw + 4vertIdx)[1], (norm)[2] = (pld->xyzw + 4vertIdx)[ 2]);
937	} else {
938	if (!vertIdx) {
939	ELL_3V_SET(norm, 0.0, 0.0, 1.0)((norm)[0] = (0.0), (norm)[1] = (0.0), (norm)[2] = (1.0));
940	} else {
941	ELL_3V_SET(norm,((norm)[0] = ((2airSgnPow(cost,2-alpha)airSgnPow(sinp,2-beta )/beta)), (norm)[1] = ((2airSgnPow(sint,2-alpha)airSgnPow(sinp ,2-beta)/beta)), (norm)[2] = (2*airSgnPow(cosp,2-beta)/beta))
942	(2airSgnPow(cost,2-alpha)airSgnPow(sinp,2-beta)/beta),((norm)[0] = ((2airSgnPow(cost,2-alpha)airSgnPow(sinp,2-beta )/beta)), (norm)[1] = ((2airSgnPow(sint,2-alpha)airSgnPow(sinp ,2-beta)/beta)), (norm)[2] = (2*airSgnPow(cosp,2-beta)/beta))
943	(2airSgnPow(sint,2-alpha)airSgnPow(sinp,2-beta)/beta),((norm)[0] = ((2airSgnPow(cost,2-alpha)airSgnPow(sinp,2-beta )/beta)), (norm)[1] = ((2airSgnPow(sint,2-alpha)airSgnPow(sinp ,2-beta)/beta)), (norm)[2] = (2*airSgnPow(cosp,2-beta)/beta))
944	2airSgnPow(cosp,2-beta)/beta)((norm)[0] = ((2airSgnPow(cost,2-alpha)airSgnPow(sinp,2-beta )/beta)), (norm)[1] = ((2airSgnPow(sint,2-alpha)airSgnPow(sinp ,2-beta)/beta)), (norm)[2] = (2airSgnPow(cosp,2-beta)/beta));
945	}
946	}
947	if ((nlen = ELL_3V_LEN(norm)(sqrt((((norm))[0]((norm))[0] + ((norm))[1]((norm))[1] + (( norm))[2]*((norm))[2]))))) {
948	ELL_3V_SCALE(norm, 1.0/nlen, norm)((norm)[0] = (1.0/nlen)(norm)[0], (norm)[1] = (1.0/nlen)(norm )[1], (norm)[2] = (1.0/nlen)*(norm)[2]);
949	} else {
950	ELL_3V_SET(norm, 0.0, 0.0, 1.0)((norm)[0] = (0.0), (norm)[1] = (0.0), (norm)[2] = (1.0));
951	}
952	if ((1 << limnPolyDataInfoNorm) & infoBitFlag) {
953	ELL_3V_COPY_TT(pld->norm + 3vertIdx, float, norm)((pld->norm + 3vertIdx)[0] = ((float)((norm)[0])), (pld-> norm + 3vertIdx)[1] = ((float)((norm)[1])), (pld->norm + 3 vertIdx)[2] = ((float)((norm)[2])));
954	}
955	if ((1 << limnPolyDataInfoTang) & infoBitFlag) {
956	double tang[3], tlen;
957	ELL_3V_SET(tang, -norm[1], norm[0], 0.0)((tang)[0] = (-norm[1]), (tang)[1] = (norm[0]), (tang)[2] = ( 0.0));
958	if ((tlen = ELL_3V_LEN(tang)(sqrt((((tang))[0]((tang))[0] + ((tang))[1]((tang))[1] + (( tang))[2]*((tang))[2]))))) {
959	ELL_3V_SCALE(tang, 1.0/tlen, tang)((tang)[0] = (1.0/tlen)(tang)[0], (tang)[1] = (1.0/tlen)(tang )[1], (tang)[2] = (1.0/tlen)*(tang)[2]);
960	} else {
961	ELL_3V_SET(tang, 1.0, 0.0, 0.0)((tang)[0] = (1.0), (tang)[1] = (0.0), (tang)[2] = (0.0));
962	}
963	ELL_3V_COPY_TT(pld->tang + 3vertIdx, float, tang)((pld->tang + 3vertIdx)[0] = ((float)((tang)[0])), (pld-> tang + 3vertIdx)[1] = ((float)((tang)[1])), (pld->tang + 3 vertIdx)[2] = ((float)((tang)[2])));
964	}
965	}
966	if ((1 << limnPolyDataInfoTex2) & infoBitFlag) {
967	ELL_2V_SET_TT(pld->tex2 + 2vertIdx, float,((pld->tex2 + 2vertIdx)[0] = ((float)((( ((double)(1.0)-( 0.0))((double)(theta)-(0.0)) / ((double)(23.14159265358979323846 )-(0.0)) + (0.0))))), (pld->tex2 + 2vertIdx)[1] = ((float )((( ((double)(1.0)-(0.0))((double)(phi)-(0.0)) / ((double)( 3.14159265358979323846)-(0.0)) + (0.0))))))
968	AIR_AFFINE(0.0, theta, 2AIR_PI, 0.0, 1.0),((pld->tex2 + 2vertIdx)[0] = ((float)((( ((double)(1.0)-( 0.0))((double)(theta)-(0.0)) / ((double)(23.14159265358979323846 )-(0.0)) + (0.0))))), (pld->tex2 + 2vertIdx)[1] = ((float )((( ((double)(1.0)-(0.0))((double)(phi)-(0.0)) / ((double)( 3.14159265358979323846)-(0.0)) + (0.0))))))
969	AIR_AFFINE(0.0, phi, AIR_PI, 0.0, 1.0))((pld->tex2 + 2vertIdx)[0] = ((float)((( ((double)(1.0)-( 0.0))((double)(theta)-(0.0)) / ((double)(23.14159265358979323846 )-(0.0)) + (0.0))))), (pld->tex2 + 2vertIdx)[1] = ((float )((( ((double)(1.0)-(0.0))*((double)(phi)-(0.0)) / ((double)( 3.14159265358979323846)-(0.0)) + (0.0))))));
970	}
971	++vertIdx;
972	}
973	}
974	ELL_4V_SET(pld->xyzw + 4vertIdx, 0, 0, -1, 1)((pld->xyzw + 4vertIdx)[0] = (0), (pld->xyzw + 4vertIdx )[1] = (0), (pld->xyzw + 4vertIdx)[2] = (-1), (pld->xyzw + 4*vertIdx)[3] = (1));
975	if ((1 << limnPolyDataInfoNorm) & infoBitFlag) {
976	ELL_3V_SET(pld->norm + 3vertIdx, 0.0, 0.0, -1.0)((pld->norm + 3vertIdx)[0] = (0.0), (pld->norm + 3vertIdx )[1] = (0.0), (pld->norm + 3vertIdx)[2] = (-1.0));
977	}
978	if ((1 << limnPolyDataInfoTex2) & infoBitFlag) {
979	ELL_2V_SET(pld->tex2 + 2vertIdx, 0.5, 1.0)((pld->tex2 + 2vertIdx)[0]=(0.5), (pld->tex2 + 2*vertIdx )[1]=(1.0));
980	}
981	if ((1 << limnPolyDataInfoTang) & infoBitFlag) {
982	ELL_3V_SET(pld->tang + 3vertIdx, 1.0, 0.0, 0.0)((pld->tang + 3vertIdx)[0] = (1.0), (pld->tang + 3vertIdx )[1] = (0.0), (pld->tang + 3vertIdx)[2] = (0.0));
983	}
984	++vertIdx;
985
986	/* single triangle strip */
987	pld->type[0] = limnPrimitiveTriangleStrip;
988	pld->icnt[0] = indxNum;
989	vertIdx = 0;
990	for (thetaIdx=1; thetaIdx<thetaRes; thetaIdx++) {
991	pld->indx[vertIdx++] = 0;
992	pld->indx[vertIdx++] = thetaIdx;
993	}
994	for (phiIdx=0; phiIdx<phiRes-1; phiIdx++) {
995	for (thetaIdx=0; thetaIdx<thetaRes; thetaIdx++) {
996	pld->indx[vertIdx++] = ((phiIdx + 0) * thetaRes) + thetaIdx;
997	pld->indx[vertIdx++] = ((phiIdx + 1) * thetaRes) + thetaIdx;
998	}
999	}
1000	for (thetaIdx=0; thetaIdx<thetaRes; thetaIdx++) {
1001	pld->indx[vertIdx++] = (phiRes - 1)*thetaRes + thetaIdx;
1002	pld->indx[vertIdx++] = (phiRes - 0)*thetaRes;
1003	}
1004	#if 0
1005	if ( (cee != beta \|\| minRad > 0.0)
1006	&& ((1 << limnPolyDataInfoNorm) & infoBitFlag) ) {
1007	/* have deformed object in some way that confounds analytic normals */
1008	if (limnPolyDataVertexNormals(pld)) {
1009	biffAddf(LIMNlimnBiffKey, "%s: trouble getting normals", me); return 1;
1010	}
1011	}
1012	#endif
1013	if ((1 << limnPolyDataInfoRGBA) & infoBitFlag) {
1014	for (vertIdx=0; vertIdx<pld->rgbaNum; vertIdx++) {
1015	ELL_4V_SET(pld->rgba + 4vertIdx, 255, 255, 255, 255)((pld->rgba + 4vertIdx)[0] = (255), (pld->rgba + 4vertIdx )[1] = (255), (pld->rgba + 4vertIdx)[2] = (255), (pld-> rgba + 4*vertIdx)[3] = (255));
1016	}
1017	}
1018
1019	return 0;
1020	}
1021
1022	/*
1023	******** limnPolyDataSpiralSuperquadric
1024	**
1025	** puts a superquadric into a single spiral triangle strip
1026	*/
1027	int
1028	limnPolyDataSpiralSuperquadric(limnPolyData *pld,
1029	unsigned int infoBitFlag,
1030	float alpha, float beta,
1031	unsigned int thetaRes, unsigned int phiRes) {
1032	static const char me[]="limnPolyDataSpiralSuperquadric";
1033
1034	if (limnPolyDataSpiralBetterquadric(pld, infoBitFlag,
1035	alpha, beta, beta, 0.0,
1036	thetaRes, phiRes)) {
1037	biffAddf(LIMNlimnBiffKey, "%s: trouble", me); return 1;
1038	}
1039	return 0;
1040	}
1041
1042	/*
1043	******** limnPolyDataPolarSphere
1044	**
1045	** makes a unit sphere, centered at the origin, parameterized around Z axis
1046	*/
1047	int
1048	limnPolyDataPolarSphere(limnPolyData *pld,
1049	unsigned int infoBitFlag,
1050	unsigned int thetaRes, unsigned int phiRes) {
1051	static const char me[]="limnPolyDataPolarSphere";
1052
1053	if (limnPolyDataSuperquadric(pld, infoBitFlag,
1054	1.0, 1.0, thetaRes, phiRes)) {
1055	biffAddf(LIMNlimnBiffKey, "%s: trouble", me);
1056	return 1;
1057	}
1058	return 0;
1059	}
1060
1061	int
1062	limnPolyDataSpiralSphere(limnPolyData *pld,
1063	unsigned int infoBitFlag,
1064	unsigned int thetaRes,
1065	unsigned int phiRes) {
1066	static const char me[]="limnPolyDataSpiralSphere";
1067
1068	if (limnPolyDataSpiralSuperquadric(pld, infoBitFlag,
1069	1.0, 1.0, thetaRes, phiRes)) {
1070	biffAddf(LIMNlimnBiffKey, "%s: trouble", me);
1071	return 1;
1072	}
1073	return 0;
1074	}
1075
1076	/* Geometry for an icosahedron */
1077	#define ICO_ONE 0.5257311121f
1078	#define ICO_TAU 0.8506508084f
1079	static float icovertices[36] = {
1080	0.0f, ICO_ONE, ICO_TAU, 0.0f, -ICO_ONE, -ICO_TAU,
1081	0.0f, -ICO_ONE, ICO_TAU, 0.0f, ICO_ONE, -ICO_TAU,
1082	ICO_ONE, ICO_TAU, 0.0f, -ICO_ONE, -ICO_TAU, 0.0f,
1083	ICO_ONE, -ICO_TAU, 0.0f, -ICO_ONE, ICO_TAU, 0.0f,
1084	ICO_TAU, 0.0f, ICO_ONE, -ICO_TAU, 0.0f, -ICO_ONE,
1085	-ICO_TAU, 0.0f, ICO_ONE, ICO_TAU, 0.0f, -ICO_ONE
1086	};
1087	#undef ICO_ONE
1088	#undef ICO_TAU
1089
1090	static unsigned int icoedges[60] = {
1091	0, 2, 1, 3, 0, 4, 1, 5, 0, 8, 1, 9, 0, 10, 1, 11, /* 0-7 */
1092	0, 7, 1, 6, 2, 6, 3, 7, 2, 8, 3, 9, 2, 10, 3, 11, /* 8-15 */
1093	2, 5, 3, 4, 4, 8, 5, 9, 4, 7, 5, 6, 4, 11, 5, 10, /* 16-23*/
1094	6, 8, 7, 9, 6, 11, 7, 10, 8, 11, 9, 10 /* 24-29 */
1095	};
1096
1097	static unsigned int icofaces[60] = {
1098	0, 4, 12, 1, 5, 13, 0, 6, 14, 1, 7, 15,
1099	6, 8, 27, 7, 9, 26, 2, 4, 18, 3, 5, 19,
1100	10, 12, 24, 11, 13, 25, 14, 16, 23, 15, 17, 22,
1101	2, 8, 20, 3, 9, 21, 10, 16, 21, 11, 17, 20,
1102	24, 26, 28, 25, 27, 29, 18, 22, 28, 19, 23, 29
1103	};
1104
1105	/*
1106	******** limnPolyDataIcoSphere
1107	**
1108	** Makes a unit sphere, centered at the origin, by refining an icosahedron
1109	** level times. Each refinement step subdivides each edge at its center,
1110	** turning each triangle into four smaller ones.
1111	**
1112	** In the output, vertex 2i and 2i+1 are antipodal points, which allows for
1113	** a more efficient implementation of operations that produce the same or
1114	** a mirrored result for antipodal points (e.g., tensor glyphs).
1115	*/
1116
1117	int
1118	limnPolyDataIcoSphere(limnPolyData *pld,
1119	unsigned int infoBitFlag,
1120	unsigned int level) {
1121	static const char me[]="limnPolyDataIcoSphere";
1122	unsigned int vertNum=12, edgeNum=30, faceNum=20, center;
1123	float verts, xyzwp, *vertp;
1124	unsigned char *rgbap;
1125	unsigned int edges, faces;
1126	unsigned int i,e,f; /* loop counters */
1127	airArray mop; / free memory in case of allocation error */
1128
1129	/* sanity checks */
1130	if (!pld) {
1131	biffAddf(LIMNlimnBiffKey, "%s: got NULL pointer", me);
1132	return 1;
1133	}
1134	mop = airMopNew();
1135
1136	/* x/y/z positions */
1137	verts = (float ) malloc (sizeof(float)12*3);
1138	if (verts==NULL((void*)0)) goto error_and_exit;
1139	airMopAdd(mop, verts, airFree, airMopAlways);
1140	memcpy(verts,icovertices,sizeof(float)123)__builtin___memcpy_chk (verts, icovertices, sizeof(float)12 3, __builtin_object_size (verts, 0));
1141	/* endpoints for each edge */
1142	edges = (unsigned int ) malloc (sizeof(unsigned int)30*2);
1143	if (edges==NULL((void*)0)) goto error_and_exit;
1144	airMopAdd(mop, edges, airFree, airMopAlways);
1145	memcpy(edges,icoedges,sizeof(unsigned int)60)__builtin___memcpy_chk (edges, icoedges, sizeof(unsigned int) 60, __builtin_object_size (edges, 0));
1146	/* vertices of each face */
1147	faces = (unsigned int ) malloc (sizeof(unsigned int)20*3);
1148	if (faces==NULL((void*)0)) goto error_and_exit;
1149	airMopAdd(mop, faces, airFree, airMopAlways);
1150	memcpy(faces,icofaces,sizeof(unsigned int)60)__builtin___memcpy_chk (faces, icofaces, sizeof(unsigned int) 60, __builtin_object_size (faces, 0));
1151
1152	for (i=0; i<level; ++i) {
1153	/* subdivision step */
1154	unsigned int nvertNum=vertNum+edgeNum;
1155	unsigned int nedgeNum=2edgeNum+3faceNum;
1156	unsigned int nfaceNum=4*faceNum;
1157	float *newverts;
1158	unsigned int newedges, newfaces;
1159	newverts = (float ) malloc(sizeof(float)3*nvertNum);
1160	if (newverts==NULL((void*)0)) goto error_and_exit;
1161	airMopAdd(mop, newverts, airFree, airMopAlways);
1162	newedges = (unsigned int ) malloc(sizeof(unsigned int)2*nedgeNum);
1163	if (newedges==NULL((void*)0)) goto error_and_exit;
1164	airMopAdd(mop, newedges, airFree, airMopAlways);
1165	newfaces = (unsigned int ) malloc(sizeof(unsigned int)3*nfaceNum);
1166	if (newfaces==NULL((void*)0)) goto error_and_exit;
1167	airMopAdd(mop, newfaces, airFree, airMopAlways);
1168	memcpy(newverts, verts, sizeof(float)3vertNum)__builtin___memcpy_chk (newverts, verts, sizeof(float)3vertNum , __builtin_object_size (newverts, 0));
1169	for (e=0; e<edgeNum; e+=2) { /* split both edge and anti-edge */
1170	float norm;
1171	ELL_3V_ADD2(newverts+3(vertNum+e), verts+3(edges[2e]),((newverts+3(vertNum+e))[0] = (verts+3(edges[2e]))[0] + (verts +3(edges[2e+1]))[0], (newverts+3(vertNum+e))[1] = (verts+3 (edges[2e]))[1] + (verts+3(edges[2e+1]))[1], (newverts+3 (vertNum+e))[2] = (verts+3(edges[2e]))[2] + (verts+3(edges [2e+1]))[2])
1172	verts+3(edges[2e+1]))((newverts+3(vertNum+e))[0] = (verts+3(edges[2e]))[0] + (verts +3(edges[2e+1]))[0], (newverts+3(vertNum+e))[1] = (verts+3 (edges[2e]))[1] + (verts+3(edges[2e+1]))[1], (newverts+3* (vertNum+e))[2] = (verts+3(edges[2e]))[2] + (verts+3(edges [2e+1]))[2]);
1173	/* project new vertex to unit sphere */
1174	ELL_3V_NORM_TT(newverts+3(vertNum+e),float,newverts+3(vertNum+e),norm)(norm = ((float)((sqrt((((newverts+3(vertNum+e)))[0]((newverts +3(vertNum+e)))[0] + ((newverts+3(vertNum+e)))[1]((newverts +3(vertNum+e)))[1] + ((newverts+3(vertNum+e)))[2]((newverts +3(vertNum+e)))[2]))))), ((newverts+3(vertNum+e))[0] = ((float )((1.0/norm)(newverts+3(vertNum+e))[0])), (newverts+3(vertNum +e))[1] = ((float)((1.0/norm)(newverts+3(vertNum+e))[1])), ( newverts+3(vertNum+e))[2] = ((float)((1.0/norm)(newverts+3 (vertNum+e))[2]))));
1175	ELL_3V_SCALE_TT(newverts+3(vertNum+e+1),float,-1.0,newverts+3(vertNum+e))((newverts+3(vertNum+e+1))[0] = ((float)((-1.0)(newverts+3* (vertNum+e))[0])), (newverts+3(vertNum+e+1))[1] = ((float)(( -1.0)(newverts+3(vertNum+e))[1])), (newverts+3(vertNum+e+1 ))[2] = ((float)((-1.0)(newverts+3(vertNum+e))[2])));
1176	/* split the edges such that anti-edge follows edge */
1177	newedges[4e]=edges[2e];
1178	newedges[4*e+1]=vertNum+e;
1179	newedges[4e+2]=edges[2e+2];
1180	newedges[4*e+3]=vertNum+e+1;
1181
1182	newedges[4*e+4]=vertNum+e;
1183	newedges[4e+5]=edges[2e+1];
1184	newedges[4*e+6]=vertNum+e+1;
1185	newedges[4e+7]=edges[2e+3];
1186	}
1187	for (f=0; f<faceNum; f+=2) { /* split both face and anti-face */
1188	unsigned int oldedge11=faces[3f], oldedge12=faces[3f+1],
1189	oldedge13=faces[3f+2], oldedge21=faces[3f+3],
1190	oldedge22=faces[3f+4], oldedge23=faces[3f+5];
1191	unsigned int eidx=2edgeNum+3f; /* index of the first edge to add */
1192	char pol11=0, pol12=0, pol13=0, pol21=0, pol22=0, pol23=0; /* polarity */
1193	/* add three edges per face - anti-edge has to follow edge! */
1194	newedges[2eidx]=newedges[2eidx+9]=vertNum+oldedge11;
1195	newedges[2eidx+1]=newedges[2eidx+4]=vertNum+oldedge12;
1196	newedges[2eidx+5]=newedges[2eidx+8]=vertNum+oldedge13;
1197	newedges[2eidx+2]=newedges[2eidx+11]=vertNum+oldedge21;
1198	newedges[2eidx+3]=newedges[2eidx+6]=vertNum+oldedge22;
1199	newedges[2eidx+7]=newedges[2eidx+10]=vertNum+oldedge23;
1200	/* split the faces - we do not have directed half-edges!
1201	* determine the "polarity" of the edges (0 forward / 2 backward) */
1202	if (edges[2oldedge11+1]==edges[2oldedge13+1] \|\|
1203	edges[2oldedge11+1]==edges[2oldedge13])
1204	pol11=2;
1205	if (edges[2oldedge12+1]==edges[2oldedge11+1] \|\|
1206	edges[2oldedge12+1]==edges[2oldedge11])
1207	pol12=2;
1208	if (edges[2oldedge13+1]==edges[2oldedge12+1] \|\|
1209	edges[2oldedge13+1]==edges[2oldedge12])
1210	pol13=2;
1211	if (edges[2oldedge21+1]==edges[2oldedge23+1] \|\|
1212	edges[2oldedge21+1]==edges[2oldedge23])
1213	pol21=2;
1214	if (edges[2oldedge22+1]==edges[2oldedge21+1] \|\|
1215	edges[2oldedge22+1]==edges[2oldedge21])
1216	pol22=2;
1217	if (edges[2oldedge23+1]==edges[2oldedge22+1] \|\|
1218	edges[2oldedge23+1]==edges[2oldedge22])
1219	pol23=2;
1220
1221	newfaces[12f] = 2oldedge11-(oldedge11%2)+pol11; /* bottom/left */
1222	newfaces[12*f+1] = eidx+4;
1223	newfaces[12f+2] = 2oldedge13-(oldedge13%2)+2-pol13;
1224	newfaces[12f+3] = 2oldedge21-(oldedge21%2)+pol21; /* anti */
1225	newfaces[12*f+4] = eidx+5;
1226	newfaces[12f+5] = 2oldedge23-(oldedge23%2)+2-pol23;
1227
1228	newfaces[12f+6] = 2oldedge11-(oldedge11%2)+2-pol11; /* bottom/right */
1229	newfaces[12f+7] = 2oldedge12-(oldedge12%2)+pol12;
1230	newfaces[12*f+8] = eidx;
1231	newfaces[12f+9] = 2oldedge21-(oldedge21%2)+2-pol21; /* anti */
1232	newfaces[12f+10]= 2oldedge22-(oldedge22%2)+pol22;
1233	newfaces[12*f+11]= eidx+1;
1234
1235	newfaces[12f+12]= 2oldedge12-(oldedge12%2)+2-pol12; /* top */
1236	newfaces[12f+13]= 2oldedge13-(oldedge13%2)+pol13;
1237	newfaces[12*f+14]= eidx+2;
1238	newfaces[12f+15]= 2oldedge22-(oldedge22%2)+2-pol22; /* anti */
1239	newfaces[12f+16]= 2oldedge23-(oldedge23%2)+pol23;
1240	newfaces[12*f+17]= eidx+3;
1241
1242	newfaces[12f+18]= eidx; / center */
1243	newfaces[12*f+19]= eidx+2;
1244	newfaces[12*f+20]= eidx+4;
1245	newfaces[12f+21]= eidx+1; / anti */
1246	newfaces[12*f+22]= eidx+3;
1247	newfaces[12*f+23]= eidx+5;
1248	}
1249	/* make subdivided mesh the current one */
1250	airMopSub(mop, verts, airFree);
1251	airMopSub(mop, edges, airFree);
1252	airMopSub(mop, faces, airFree);
1253	free(verts); free(edges); free(faces);
1254	verts=newverts; edges=newedges; faces=newfaces;
1255	vertNum=nvertNum; edgeNum=nedgeNum; faceNum=nfaceNum;
1256	}
1257	/* done; now copy to a limnPolyData struct */
1258	if (limnPolyDataAlloc(pld, infoBitFlag, vertNum, 3*faceNum, 1)) {
1259	biffAddf(LIMNlimnBiffKey, "%s: couldn't allocate output", me);
1260	return 1;
1261	}
1262	xyzwp=pld->xyzw; vertp=verts;
1263	for (i=0; i<vertNum; i++) {
1264	ELL_4V_SET(xyzwp, vertp[0], vertp[1], vertp[2], 1.0)((xyzwp)[0] = (vertp[0]), (xyzwp)[1] = (vertp[1]), (xyzwp)[2] = (vertp[2]), (xyzwp)[3] = (1.0));
1265	xyzwp+=4; vertp+=3;
1266	}
1267	if ((1 << limnPolyDataInfoNorm) & infoBitFlag) {
1268	/* normals equal the vertex coordinates */
1269	memcpy(pld->norm, verts, sizeof(float)3vertNum)__builtin___memcpy_chk (pld->norm, verts, sizeof(float)3 vertNum, __builtin_object_size (pld->norm, 0));
1270	}
1271	if ((1 << limnPolyDataInfoRGBA) & infoBitFlag) {
1272	rgbap=pld->rgba; vertp=verts;
1273	for (i=0; i<vertNum; i++) {
1274	ELL_4V_SET_TT(rgbap, unsigned char, 255, 255, 255, 255)((rgbap)[0] = ((unsigned char)((255))), (rgbap)[1] = ((unsigned char)((255))), (rgbap)[2] = ((unsigned char)((255))), (rgbap )[3] = ((unsigned char)((255))));
1275	rgbap+=4; vertp+=3;
1276	}
1277	}
1278	if ((1 << limnPolyDataInfoTex2) & infoBitFlag) {
1279	for (i=0; i<vertNum; i++) {
1280	double rr, xyz[3], phi, theta;
1281	ELL_3V_COPY(xyz, pld->xyzw + 4i)((xyz)[0] = (pld->xyzw + 4i)[0], (xyz)[1] = (pld->xyzw + 4i)[1], (xyz)[2] = (pld->xyzw + 4i)[2]);
1282	rr = sqrt(xyz[0]xyz[0] + xyz[1]xyz[1]);
1283	phi = atan2(rr, xyz[2]);
1284	theta = atan2(xyz[1], xyz[0]);
1285	ELL_2V_SET_TT(pld->tex2 + 2i, float,((pld->tex2 + 2i)[0] = ((float)((( ((double)(1.0)-(0.0))* ((double)(theta)-(-3.14159265358979323846)) / ((double)(3.14159265358979323846 )-(-3.14159265358979323846)) + (0.0))))), (pld->tex2 + 2i )[1] = ((float)((( ((double)(1.0)-(0.0))((double)(phi)-(0.0) ) / ((double)(3.14159265358979323846)-(0.0)) + (0.0))))))
1286	AIR_AFFINE(-AIR_PI, theta, AIR_PI, 0.0, 1.0),((pld->tex2 + 2i)[0] = ((float)((( ((double)(1.0)-(0.0)) ((double)(theta)-(-3.14159265358979323846)) / ((double)(3.14159265358979323846 )-(-3.14159265358979323846)) + (0.0))))), (pld->tex2 + 2i )[1] = ((float)((( ((double)(1.0)-(0.0))((double)(phi)-(0.0) ) / ((double)(3.14159265358979323846)-(0.0)) + (0.0))))))
1287	AIR_AFFINE(0.0, phi, AIR_PI, 0.0, 1.0))((pld->tex2 + 2i)[0] = ((float)((( ((double)(1.0)-(0.0)) ((double)(theta)-(-3.14159265358979323846)) / ((double)(3.14159265358979323846 )-(-3.14159265358979323846)) + (0.0))))), (pld->tex2 + 2i )[1] = ((float)((( ((double)(1.0)-(0.0))((double)(phi)-(0.0) ) / ((double)(3.14159265358979323846)-(0.0)) + (0.0))))));
1288	}
1289	}
1290	if ((1 << limnPolyDataInfoTang) & infoBitFlag) {
1291	for (i=0; i<vertNum; i++) {
1292	double rr, xyz[3], tang[3], len;
1293	ELL_3V_COPY(xyz, pld->xyzw + 4i)((xyz)[0] = (pld->xyzw + 4i)[0], (xyz)[1] = (pld->xyzw + 4i)[1], (xyz)[2] = (pld->xyzw + 4i)[2]);
1294	rr = sqrt(xyz[0]xyz[0] + xyz[1]xyz[1]);
1295	if (rr) {
1296	ELL_3V_SET(tang, -xyz[1], xyz[0], 0.0)((tang)[0] = (-xyz[1]), (tang)[1] = (xyz[0]), (tang)[2] = (0.0 ));
1297	ELL_3V_NORM_TT(pld->tang + 3i, float, tang, len)(len = ((float)((sqrt((((tang))[0]((tang))[0] + ((tang))[1]* ((tang))[1] + ((tang))[2]((tang))[2]))))), ((pld->tang + 3 i)[0] = ((float)((1.0/len)(tang)[0])), (pld->tang + 3i) [1] = ((float)((1.0/len)(tang)[1])), (pld->tang + 3i)[2] = ((float)((1.0/len)*(tang)[2]))));
1298	} else {
1299	ELL_3V_SET(pld->tang + 3i, 1.0f, 0.0f, 0.0f)((pld->tang + 3i)[0] = (1.0f), (pld->tang + 3i)[1] = ( 0.0f), (pld->tang + 3i)[2] = (0.0f));
1300	}
1301	}
1302	}
1303
1304	/* We need to replace reference to edges in faces with references to
1305	* vertices. Make sure that they are ordered CCW */
1306	pld->type[0] = limnPrimitiveTriangles;
1307	pld->icnt[0] = faceNum*3;
1308	for (f=0; f<faceNum; ++f) {
1309	unsigned int vertices[3]; /* find the right vertices */
1310	float diff1[3],diff2[3],cross[3];
1311	vertices[0]=edges[2faces[3f]];
1312	vertices[1]=edges[2faces[3f]+1];
1313	if (edges[2faces[3f+1]]==vertices[0] \|\|
1314	edges[2faces[3f+1]]==vertices[1])
1315	vertices[2]=edges[2faces[3f+1]+1];
1316	else
1317	vertices[2]=edges[2faces[3f+1]];
1318	/* put them into correct order */
1319	ELL_3V_SUB(diff1,verts+3vertices[1],verts+3vertices[0])((diff1)[0] = (verts+3vertices[1])[0] - (verts+3vertices[0] )[0], (diff1)[1] = (verts+3vertices[1])[1] - (verts+3vertices [0])[1], (diff1)[2] = (verts+3vertices[1])[2] - (verts+3vertices [0])[2]);
1320	ELL_3V_SUB(diff2,verts+3vertices[2],verts+3vertices[0])((diff2)[0] = (verts+3vertices[2])[0] - (verts+3vertices[0] )[0], (diff2)[1] = (verts+3vertices[2])[1] - (verts+3vertices [0])[1], (diff2)[2] = (verts+3vertices[2])[2] - (verts+3vertices [0])[2]);
1321	ELL_3V_CROSS(cross,diff1,diff2)((cross)[0] = (diff1)[1](diff2)[2] - (diff1)[2](diff2)[1], ( cross)[1] = (diff1)[2](diff2)[0] - (diff1)[0](diff2)[2], (cross )[2] = (diff1)[0](diff2)[1] - (diff1)[1](diff2)[0]);
1322	pld->indx[3*f]=vertices[0];
1323	if (ELL_3V_DOT(cross,verts+3vertices[0])((cross)[0](verts+3vertices[0])[0] + (cross)[1](verts+3vertices [0])[1] + (cross)[2](verts+3*vertices[0])[2])<0) {
1324	pld->indx[3*f+1]=vertices[2];
1325	pld->indx[3*f+2]=vertices[1];
1326	} else {
1327	pld->indx[3*f+1]=vertices[1];
1328	pld->indx[3*f+2]=vertices[2];
1329	}
1330	}
1331	/* re-order the triangles */
1332	center=3*(faceNum/2);
1333	for (i=0; i<faceNum/2; i++) {
1334	ELL_3V_COPY(faces+3i,pld->indx+6i)((faces+3i)[0] = (pld->indx+6i)[0], (faces+3i)[1] = (pld ->indx+6i)[1], (faces+3i)[2] = (pld->indx+6i)[2]);
1335	ELL_3V_COPY(faces+center+3i,pld->indx+6i+3)((faces+center+3i)[0] = (pld->indx+6i+3)[0], (faces+center +3i)[1] = (pld->indx+6i+3)[1], (faces+center+3i)[2] = ( pld->indx+6i+3)[2]);
1336	}
1337	airMopAdd(mop, pld->indx, airFree, airMopAlways);
1338	airMopSub(mop, faces, airFree);
1339	pld->indx=faces;
1340	/* done */
1341	airMopOkay(mop);
1342	return 0;
1343	error_and_exit:
1344	biffAddf(LIMNlimnBiffKey, "%s: memory allocation failed", me);
1345	airMopError(mop);
1346	return 1;
1347	}
1348
1349	int
1350	limnPolyDataPlane(limnPolyData *pld,
1351	unsigned int infoBitFlag,
1352	unsigned int uRes, unsigned int vRes) {
1353	static const char me[]="limnPolyDataPlane";
1354	unsigned int vertNum, indxNum, primNum, uIdx, vIdx, vertIdx, primIdx;
1355	float uu, vv;
1356
1357	/* sanity */
1358	uRes = AIR_MAX(2, uRes)((2) > (uRes) ? (2) : (uRes));
1359	vRes = AIR_MAX(2, vRes)((2) > (vRes) ? (2) : (vRes));
1360
1361	vertNum = uRes*vRes;
1362	primNum = vRes-1;
1363	indxNum = primNum2uRes;
1364	if (limnPolyDataAlloc(pld, infoBitFlag, vertNum, indxNum, primNum)) {
1365	biffAddf(LIMNlimnBiffKey, "%s: couldn't allocate output", me);
1366	return 1;
1367	}
1368
1369	vertIdx = 0;
1370	for (vIdx=0; vIdx<vRes; vIdx++) {
1371	vv = AIR_CAST(float, AIR_AFFINE(0, vIdx, vRes-1, -1.0, 1.0))((float)(( ((double)(1.0)-(-1.0))*((double)(vIdx)-(0)) / ((double )(vRes-1)-(0)) + (-1.0))));
1372	for (uIdx=0; uIdx<uRes; uIdx++) {
1373	uu = AIR_CAST(float, AIR_AFFINE(0, uIdx, uRes-1, -1.0, 1.0))((float)(( ((double)(1.0)-(-1.0))*((double)(uIdx)-(0)) / ((double )(uRes-1)-(0)) + (-1.0))));
1374	ELL_4V_SET(pld->xyzw + 4vertIdx, uu, vv, 0.0, 1.0)((pld->xyzw + 4vertIdx)[0] = (uu), (pld->xyzw + 4vertIdx )[1] = (vv), (pld->xyzw + 4vertIdx)[2] = (0.0), (pld-> xyzw + 4*vertIdx)[3] = (1.0));
1375	if ((1 << limnPolyDataInfoNorm) & infoBitFlag) {
1376	ELL_3V_SET_TT(pld->norm + 3vertIdx, float, 0.0, 0.0, 1.0)((pld->norm + 3vertIdx)[0] = ((float)((0.0))), (pld->norm + 3vertIdx)[1] = ((float)((0.0))), (pld->norm + 3vertIdx )[2] = ((float)((1.0))));
1377	}
1378	if ((1 << limnPolyDataInfoRGBA) & infoBitFlag) {
1379	ELL_4V_SET(pld->rgba + 4vertIdx, 255, 255, 255, 255)((pld->rgba + 4vertIdx)[0] = (255), (pld->rgba + 4vertIdx )[1] = (255), (pld->rgba + 4vertIdx)[2] = (255), (pld-> rgba + 4*vertIdx)[3] = (255));
1380	}
1381	if ((1 << limnPolyDataInfoTex2) & infoBitFlag) {
1382	ELL_2V_SET_TT(pld->tex2 + 2vertIdx, float, (uu+1.0)/2.0, (vv+1.0)/2.0)((pld->tex2 + 2vertIdx)[0] = ((float)(((uu+1.0)/2.0))), ( pld->tex2 + 2*vertIdx)[1] = ((float)(((vv+1.0)/2.0))));
1383	}
1384	if ((1 << limnPolyDataInfoTang) & infoBitFlag) {
1385	ELL_3V_SET_TT(pld->tang + 3vertIdx, float, 1.0, 0.0, 0.0)((pld->tang + 3vertIdx)[0] = ((float)((1.0))), (pld->tang + 3vertIdx)[1] = ((float)((0.0))), (pld->tang + 3vertIdx )[2] = ((float)((0.0))));
1386	}
1387	++vertIdx;
1388	}
1389	}
1390
1391	vertIdx = 0;
1392	for (primIdx=0; primIdx<primNum; primIdx++) {
1393	for (uIdx=0; uIdx<uRes; uIdx++) {
1394	pld->indx[vertIdx++] = uIdx + uRes*(primIdx+1);
1395	pld->indx[vertIdx++] = uIdx + uRes*(primIdx);
1396	}
1397	pld->type[primIdx] = limnPrimitiveTriangleStrip;
1398	pld->icnt[primIdx] = 2*uRes;
1399	}
1400
1401	return 0;
1402	}
1403
1404	int
1405	limnPolyDataSquare(limnPolyData *pld, unsigned int infoBitFlag) {
1406	static const char me[]="limnPolyDataSquare";
1407
1408	if (limnPolyDataAlloc(pld, infoBitFlag, 4, 4, 1)) {
1409	biffAddf(LIMNlimnBiffKey, "%s: couldn't allocate output", me);
1410	return 1;
1411	}
1412	ELL_4V_SET(pld->xyzw + 40, -1.0, -1.0, 0.0, 1.0)((pld->xyzw + 40)[0] = (-1.0), (pld->xyzw + 40)[1] = ( -1.0), (pld->xyzw + 40)[2] = (0.0), (pld->xyzw + 4*0)[ 3] = (1.0));
1413	ELL_4V_SET(pld->xyzw + 41, 1.0, -1.0, 0.0, 1.0)((pld->xyzw + 41)[0] = (1.0), (pld->xyzw + 41)[1] = ( -1.0), (pld->xyzw + 41)[2] = (0.0), (pld->xyzw + 4*1)[ 3] = (1.0));
1414	ELL_4V_SET(pld->xyzw + 42, -1.0, 1.0, 0.0, 1.0)((pld->xyzw + 42)[0] = (-1.0), (pld->xyzw + 42)[1] = ( 1.0), (pld->xyzw + 42)[2] = (0.0), (pld->xyzw + 4*2)[3 ] = (1.0));
1415	ELL_4V_SET(pld->xyzw + 43, 1.0, 1.0, 0.0, 1.0)((pld->xyzw + 43)[0] = (1.0), (pld->xyzw + 43)[1] = ( 1.0), (pld->xyzw + 43)[2] = (0.0), (pld->xyzw + 4*3)[3 ] = (1.0));
1416	if ((1 << limnPolyDataInfoNorm) & infoBitFlag) {
1417	ELL_3V_SET(pld->norm + 30, 0.0, 0.0, 1.0)((pld->norm + 30)[0] = (0.0), (pld->norm + 30)[1] = ( 0.0), (pld->norm + 30)[2] = (1.0));
1418	ELL_3V_SET(pld->norm + 31, 0.0, 0.0, 1.0)((pld->norm + 31)[0] = (0.0), (pld->norm + 31)[1] = ( 0.0), (pld->norm + 31)[2] = (1.0));
1419	ELL_3V_SET(pld->norm + 32, 0.0, 0.0, 1.0)((pld->norm + 32)[0] = (0.0), (pld->norm + 32)[1] = ( 0.0), (pld->norm + 32)[2] = (1.0));
1420	ELL_3V_SET(pld->norm + 33, 0.0, 0.0, 1.0)((pld->norm + 33)[0] = (0.0), (pld->norm + 33)[1] = ( 0.0), (pld->norm + 33)[2] = (1.0));
1421	}
1422	if ((1 << limnPolyDataInfoRGBA) & infoBitFlag) {
1423	ELL_4V_SET(pld->rgba + 40, 255, 255, 255, 255)((pld->rgba + 40)[0] = (255), (pld->rgba + 40)[1] = ( 255), (pld->rgba + 40)[2] = (255), (pld->rgba + 4*0)[3 ] = (255));
1424	ELL_4V_SET(pld->rgba + 41, 255, 255, 255, 255)((pld->rgba + 41)[0] = (255), (pld->rgba + 41)[1] = ( 255), (pld->rgba + 41)[2] = (255), (pld->rgba + 4*1)[3 ] = (255));
1425	ELL_4V_SET(pld->rgba + 42, 255, 255, 255, 255)((pld->rgba + 42)[0] = (255), (pld->rgba + 42)[1] = ( 255), (pld->rgba + 42)[2] = (255), (pld->rgba + 4*2)[3 ] = (255));
1426	ELL_4V_SET(pld->rgba + 43, 255, 255, 255, 255)((pld->rgba + 43)[0] = (255), (pld->rgba + 43)[1] = ( 255), (pld->rgba + 43)[2] = (255), (pld->rgba + 4*3)[3 ] = (255));
1427	}
1428	if ((1 << limnPolyDataInfoTex2) & infoBitFlag) {
1429	ELL_2V_SET(pld->tex2 + 20, 0.0, 1.0)((pld->tex2 + 20)[0]=(0.0), (pld->tex2 + 2*0)[1]=(1.0) );
1430	ELL_2V_SET(pld->tex2 + 21, 1.0, 1.0)((pld->tex2 + 21)[0]=(1.0), (pld->tex2 + 2*1)[1]=(1.0) );
1431	ELL_2V_SET(pld->tex2 + 22, 0.0, 0.0)((pld->tex2 + 22)[0]=(0.0), (pld->tex2 + 2*2)[1]=(0.0) );
1432	ELL_2V_SET(pld->tex2 + 23, 1.0, 0.0)((pld->tex2 + 23)[0]=(1.0), (pld->tex2 + 2*3)[1]=(0.0) );
1433	}
1434	if ((1 << limnPolyDataInfoTang) & infoBitFlag) {
1435	ELL_3V_SET(pld->tang + 30, 1.0, 0.0, 0.0)((pld->tang + 30)[0] = (1.0), (pld->tang + 30)[1] = ( 0.0), (pld->tang + 30)[2] = (0.0));
1436	ELL_3V_SET(pld->tang + 31, 1.0, 0.0, 0.0)((pld->tang + 31)[0] = (1.0), (pld->tang + 31)[1] = ( 0.0), (pld->tang + 31)[2] = (0.0));
1437	ELL_3V_SET(pld->tang + 32, 1.0, 0.0, 0.0)((pld->tang + 32)[0] = (1.0), (pld->tang + 32)[1] = ( 0.0), (pld->tang + 32)[2] = (0.0));
1438	ELL_3V_SET(pld->tang + 33, 1.0, 0.0, 0.0)((pld->tang + 33)[0] = (1.0), (pld->tang + 33)[1] = ( 0.0), (pld->tang + 33)[2] = (0.0));
1439	}
1440	pld->type[0] = limnPrimitiveTriangleStrip;
1441	ELL_4V_SET(pld->indx, 0, 1, 2, 3)((pld->indx)[0] = (0), (pld->indx)[1] = (1), (pld->indx )[2] = (2), (pld->indx)[3] = (3));
1442	pld->icnt[0] = 4;
1443
1444	return 0;
1445	}
1446
1447	int
1448	limnPolyDataSuperquadric2D(limnPolyData *pld,
1449	unsigned int infoBitFlag,
1450	float alpha, unsigned int res) {
1451	static const char me[]="limnPolyDataSuperquadric2D";
1452	unsigned int i, vertNum;
1453	float phi;
1454
1455	vertNum = res+1; /* initial vertex at origin */
1456	if (limnPolyDataAlloc(pld, infoBitFlag, vertNum,
1457	vertNum+1, /* last index wraps around */
1458	1)) {
1459	biffAddf(LIMNlimnBiffKey, "%s: couldn't allocate output", me);
1460	return 1;
1461	}
1462	/* initial vertex at origin */
1463	ELL_4V_SET(pld->xyzw + 40, 0.0, 0.0, 0.0, 1.0)((pld->xyzw + 40)[0] = (0.0), (pld->xyzw + 40)[1] = ( 0.0), (pld->xyzw + 40)[2] = (0.0), (pld->xyzw + 4*0)[3 ] = (1.0));
1464	/* printf("!%s: xyzw[0] = %g %g %g %g\n", me, (pld->xyzw + 40)[0], (pld->xyzw + 40)[1], (pld->xyzw + 40)[2], (pld->xyzw + 40)[3]); */
1465	for (i=1; i<vertNum; i++) {
1466	phi = AIR_AFFINE(1, i, vertNum, 0, 2AIR_PI)( ((double)(23.14159265358979323846)-(0))*((double)(i)-(1)) / ((double)(vertNum)-(1)) + (0));
1467	ELL_4V_SET(pld->xyzw + 4i,((pld->xyzw + 4i)[0] = (airSgnPow(cos(phi),alpha)), (pld-> xyzw + 4i)[1] = (airSgnPow(sin(phi),alpha)), (pld->xyzw + 4i)[2] = (0.0), (pld->xyzw + 4*i)[3] = (1.0))
1468	airSgnPow(cos(phi),alpha),((pld->xyzw + 4i)[0] = (airSgnPow(cos(phi),alpha)), (pld-> xyzw + 4i)[1] = (airSgnPow(sin(phi),alpha)), (pld->xyzw + 4i)[2] = (0.0), (pld->xyzw + 4i)[3] = (1.0))
1469	airSgnPow(sin(phi),alpha),((pld->xyzw + 4i)[0] = (airSgnPow(cos(phi),alpha)), (pld-> xyzw + 4i)[1] = (airSgnPow(sin(phi),alpha)), (pld->xyzw + 4i)[2] = (0.0), (pld->xyzw + 4i)[3] = (1.0))
1470	0.0, 1.0)((pld->xyzw + 4i)[0] = (airSgnPow(cos(phi),alpha)), (pld-> xyzw + 4i)[1] = (airSgnPow(sin(phi),alpha)), (pld->xyzw + 4i)[2] = (0.0), (pld->xyzw + 4i)[3] = (1.0));
1471	/* printf("!%s: xyzw[%u] = %g %g %g %g\n", me, i ,(pld->xyzw + 4i)[0], (pld->xyzw + 4i)[1], (pld->xyzw + 4i)[2], (pld->xyzw + 4i)[3]); */
1472	}
1473	if ((1 << limnPolyDataInfoNorm) & infoBitFlag) {
1474	for (i=0; i<vertNum; i++) {
1475	ELL_3V_SET(pld->norm + 3i, 0.0, 0.0, 1.0)((pld->norm + 3i)[0] = (0.0), (pld->norm + 3i)[1] = ( 0.0), (pld->norm + 3i)[2] = (1.0));
1476	}
1477	}
1478	if ((1 << limnPolyDataInfoRGBA) & infoBitFlag) {
1479	for (i=0; i<vertNum; i++) {
1480	ELL_4V_SET(pld->rgba + 4i, 255, 255, 255, 255)((pld->rgba + 4i)[0] = (255), (pld->rgba + 4i)[1] = ( 255), (pld->rgba + 4i)[2] = (255), (pld->rgba + 4*i)[3 ] = (255));
1481	}
1482	}
1483	if ((1 << limnPolyDataInfoTex2) & infoBitFlag) {
1484	/* punting */
1485	ELL_2V_COPY(pld->tex2 + 2i, pld->xyzw + 4i)((pld->tex2 + 2i)[0] = (pld->xyzw + 4i)[0], (pld-> tex2 + 2i)[1] = (pld->xyzw + 4i)[1]);
1486	}
1487	if ((1 << limnPolyDataInfoTang) & infoBitFlag) {
1488	/* punting */
1489	ELL_3V_SET(pld->tang + 3i, 0.0, 0.0, 0.0)((pld->tang + 3i)[0] = (0.0), (pld->tang + 3i)[1] = ( 0.0), (pld->tang + 3i)[2] = (0.0));
1490	}
1491	pld->type[0] = limnPrimitiveTriangleFan;
1492	for (i=0; i<vertNum; i++) {
1493	pld->indx[i] = i;
1494	/* printf("!%s: idx[%u] = %u\n", me, i, pld->indx[i]); */
1495	}
1496	/* very last index loops around to first non-origin point */
1497	pld->indx[i] = 1;
1498	/* printf("!%s: idx[%u] = %u\n", me, i, pld->indx[i]); */
1499	pld->icnt[0] = vertNum+1;
1500
1501	return 0;
1502	}
1503