1f220fa62Smrg/* 2f220fa62Smrg** License Applicability. Except to the extent portions of this file are 3f220fa62Smrg** made subject to an alternative license as permitted in the SGI Free 4f220fa62Smrg** Software License B, Version 1.1 (the "License"), the contents of this 5f220fa62Smrg** file are subject only to the provisions of the License. You may not use 6f220fa62Smrg** this file except in compliance with the License. You may obtain a copy 7f220fa62Smrg** of the License at Silicon Graphics, Inc., attn: Legal Services, 1600 8f220fa62Smrg** Amphitheatre Parkway, Mountain View, CA 94043-1351, or at: 9f220fa62Smrg** 10f220fa62Smrg** http://oss.sgi.com/projects/FreeB 11f220fa62Smrg** 12f220fa62Smrg** Note that, as provided in the License, the Software is distributed on an 13f220fa62Smrg** "AS IS" basis, with ALL EXPRESS AND IMPLIED WARRANTIES AND CONDITIONS 14f220fa62Smrg** DISCLAIMED, INCLUDING, WITHOUT LIMITATION, ANY IMPLIED WARRANTIES AND 15f220fa62Smrg** CONDITIONS OF MERCHANTABILITY, SATISFACTORY QUALITY, FITNESS FOR A 16f220fa62Smrg** PARTICULAR PURPOSE, AND NON-INFRINGEMENT. 17f220fa62Smrg** 18f220fa62Smrg** Original Code. The Original Code is: OpenGL Sample Implementation, 19f220fa62Smrg** Version 1.2.1, released January 26, 2000, developed by Silicon Graphics, 20f220fa62Smrg** Inc. The Original Code is Copyright (c) 1991-2000 Silicon Graphics, Inc. 21f220fa62Smrg** Copyright in any portions created by third parties is as indicated 22f220fa62Smrg** elsewhere herein. All Rights Reserved. 23f220fa62Smrg** 24f220fa62Smrg** Additional Notice Provisions: The application programming interfaces 25f220fa62Smrg** established by SGI in conjunction with the Original Code are The 26f220fa62Smrg** OpenGL(R) Graphics System: A Specification (Version 1.2.1), released 27f220fa62Smrg** April 1, 1999; The OpenGL(R) Graphics System Utility Library (Version 28f220fa62Smrg** 1.3), released November 4, 1998; and OpenGL(R) Graphics with the X 29f220fa62Smrg** Window System(R) (Version 1.3), released October 19, 1998. This software 30f220fa62Smrg** was created using the OpenGL(R) version 1.2.1 Sample Implementation 31f220fa62Smrg** published by SGI, but has not been independently verified as being 32f220fa62Smrg** compliant with the OpenGL(R) version 1.2.1 Specification. 33f220fa62Smrg*/ 34f220fa62Smrg 35f220fa62Smrg/* 36f220fa62Smrg * mapdescv.c++ 37f220fa62Smrg * 38f220fa62Smrg */ 39f220fa62Smrg 40f220fa62Smrg#include "glimports.h" 41f220fa62Smrg#include "mystdio.h" 42f220fa62Smrg#include "myassert.h" 43f220fa62Smrg#include "mystring.h" 44f220fa62Smrg#include "mymath.h" 45f220fa62Smrg#include "nurbsconsts.h" 46f220fa62Smrg#include "mapdesc.h" 47f220fa62Smrg 48f220fa62Smrg/*-------------------------------------------------------------------------- 49f220fa62Smrg * calcPartialVelocity - calculate maximum magnitude of a given partial 50f220fa62Smrg * derivative 51f220fa62Smrg *-------------------------------------------------------------------------- 52f220fa62Smrg */ 53f220fa62SmrgREAL 54f220fa62SmrgMapdesc::calcPartialVelocity ( 55f220fa62Smrg REAL *p, 56f220fa62Smrg int stride, 57f220fa62Smrg int ncols, 58f220fa62Smrg int partial, 59f220fa62Smrg REAL range ) 60f220fa62Smrg{ 61f220fa62Smrg REAL tmp[MAXORDER][MAXCOORDS]; 62f220fa62Smrg REAL mag[MAXORDER]; 63f220fa62Smrg 64f220fa62Smrg assert( ncols <= MAXORDER ); 65f220fa62Smrg 66f220fa62Smrg int j, k, t; 67f220fa62Smrg // copy inhomogeneous control points into temporary array 68f220fa62Smrg for( j=0; j != ncols; j++ ) 69f220fa62Smrg for( k=0; k != inhcoords; k++ ) 70f220fa62Smrg tmp[j][k] = p[j*stride + k]; 71f220fa62Smrg 72f220fa62Smrg for( t=0; t != partial; t++ ) 73f220fa62Smrg for( j=0; j != ncols-t-1; j++ ) 74f220fa62Smrg for( k=0; k != inhcoords; k++ ) 75f220fa62Smrg tmp[j][k] = tmp[j+1][k] - tmp[j][k]; 76f220fa62Smrg 77f220fa62Smrg // compute magnitude and store in mag array 78f220fa62Smrg for( j=0; j != ncols-partial; j++ ) { 79f220fa62Smrg mag[j] = 0.0; 80f220fa62Smrg for( k=0; k != inhcoords; k++ ) 81f220fa62Smrg mag[j] += tmp[j][k] * tmp[j][k]; 82f220fa62Smrg } 83f220fa62Smrg 84f220fa62Smrg // compute scale factor 85f220fa62Smrg REAL fac = 1; 86f220fa62Smrg REAL invt = 1.0 / range; 87f220fa62Smrg for( t = ncols-1; t != ncols-1-partial; t-- ) 88f220fa62Smrg fac *= t * invt; 89f220fa62Smrg 90f220fa62Smrg // compute max magnitude of all entries in array 91f220fa62Smrg REAL max = 0.0; 92f220fa62Smrg for( j=0; j != ncols-partial; j++ ) 93f220fa62Smrg if( mag[j] > max ) max = mag[j]; 94f220fa62Smrg max = fac * sqrtf( (float) max ); 95f220fa62Smrg 96f220fa62Smrg return max; 97f220fa62Smrg} 98f220fa62Smrg 99f220fa62Smrg/*-------------------------------------------------------------------------- 100f220fa62Smrg * calcPartialVelocity - calculate maximum magnitude of a given partial 101f220fa62Smrg * derivative 102f220fa62Smrg *-------------------------------------------------------------------------- 103f220fa62Smrg */ 104f220fa62SmrgREAL 105f220fa62SmrgMapdesc::calcPartialVelocity ( 106f220fa62Smrg REAL *dist, 107f220fa62Smrg REAL *p, 108f220fa62Smrg int rstride, 109f220fa62Smrg int cstride, 110f220fa62Smrg int nrows, 111f220fa62Smrg int ncols, 112f220fa62Smrg int spartial, 113f220fa62Smrg int tpartial, 114f220fa62Smrg REAL srange, 115f220fa62Smrg REAL trange, 116f220fa62Smrg int side ) 117f220fa62Smrg{ 118f220fa62Smrg REAL tmp[MAXORDER][MAXORDER][MAXCOORDS]; 119f220fa62Smrg REAL mag[MAXORDER][MAXORDER]; 120f220fa62Smrg 121f220fa62Smrg assert( nrows <= MAXORDER ); 122f220fa62Smrg assert( ncols <= MAXORDER ); 123f220fa62Smrg 124f220fa62Smrg REAL *tp = &tmp[0][0][0]; 125f220fa62Smrg REAL *mp = &mag[0][0]; 126f220fa62Smrg const int istride = sizeof( tmp[0]) / sizeof( tmp[0][0][0] ); 127f220fa62Smrg const int jstride = sizeof( tmp[0][0]) / sizeof( tmp[0][0][0] ); 128f220fa62Smrg /* 129f220fa62Smrg const int kstride = sizeof( tmp[0][0][0]) / sizeof( tmp[0][0][0] ); 130f220fa62Smrg */ 131f220fa62Smrg const int mistride = sizeof( mag[0]) / sizeof( mag[0][0] ); 132f220fa62Smrg const int mjstride = sizeof( mag[0][0]) / sizeof( mag[0][0] ); 133f220fa62Smrg const int idist = nrows * istride; 134f220fa62Smrg const int jdist = ncols * jstride; 135f220fa62Smrg /* 136f220fa62Smrg const int kdist = inhcoords * kstride; 137f220fa62Smrg */ 138f220fa62Smrg const int id = idist - spartial * istride; 139f220fa62Smrg const int jd = jdist - tpartial * jstride; 140f220fa62Smrg 141f220fa62Smrg { 142f220fa62Smrg // copy control points 143f220fa62Smrg REAL *ti = tp; 144f220fa62Smrg REAL *qi = p; 145f220fa62Smrg REAL *til = tp + idist; 146f220fa62Smrg for( ; ti != til; ) { 147f220fa62Smrg REAL *tj = ti; 148f220fa62Smrg REAL *qj = qi; 149f220fa62Smrg REAL *tjl = ti + jdist; 150f220fa62Smrg for( ; tj != tjl; ) { 151f220fa62Smrg for( int k=0; k != inhcoords; k++ ) { 152f220fa62Smrg tj[k] = qj[k]; 153f220fa62Smrg } 154f220fa62Smrg tj += jstride; 155f220fa62Smrg qj += cstride; 156f220fa62Smrg } 157f220fa62Smrg ti += istride; 158f220fa62Smrg qi += rstride; 159f220fa62Smrg } 160f220fa62Smrg } 161f220fa62Smrg 162f220fa62Smrg { 163f220fa62Smrg // compute (s)-partial derivative control points 164f220fa62Smrg REAL *til = tp + idist - istride; 165f220fa62Smrg const REAL *till = til - ( spartial * istride ); 166f220fa62Smrg for( ; til != till; til -= istride ) 167f220fa62Smrg for( REAL *ti = tp; ti != til; ti += istride ) 168f220fa62Smrg for( REAL *tj = ti, *tjl = tj + jdist; tj != tjl; tj += jstride ) 169f220fa62Smrg for( int k=0; k != inhcoords; k++ ) 170f220fa62Smrg tj[k] = tj[k+istride] - tj[k]; 171f220fa62Smrg } 172f220fa62Smrg 173f220fa62Smrg { 174f220fa62Smrg // compute (s,t)-partial derivative control points 175f220fa62Smrg REAL *tjl = tp + jdist - jstride; 176f220fa62Smrg const REAL *tjll = tjl - ( tpartial * jstride ); 177f220fa62Smrg for( ; tjl != tjll; tjl -= jstride ) 178f220fa62Smrg for( REAL *tj = tp; tj != tjl; tj += jstride ) 179f220fa62Smrg for( REAL *ti = tj, *til = ti + id; ti != til; ti += istride ) 180f220fa62Smrg for( int k=0; k != inhcoords; k++ ) 181f220fa62Smrg ti[k] = ti[k+jstride] - ti[k]; 182f220fa62Smrg 183f220fa62Smrg } 184f220fa62Smrg 185f220fa62Smrg REAL max = 0.0; 186f220fa62Smrg { 187f220fa62Smrg // compute magnitude and store in mag array 188f220fa62Smrg memset( (void *) mp, 0, sizeof( mag ) ); 189f220fa62Smrg for( REAL *ti = tp, *mi = mp, *til = tp + id; ti != til; ti += istride, mi += mistride ) 190f220fa62Smrg for( REAL *tj = ti, *mj = mi, *tjl = ti + jd; tj != tjl; tj += jstride, mj += mjstride ) { 191f220fa62Smrg for( int k=0; k != inhcoords; k++ ) 192f220fa62Smrg *mj += tj[k] * tj[k]; 193f220fa62Smrg if( *mj > max ) max = *mj; 194f220fa62Smrg } 195f220fa62Smrg 196f220fa62Smrg } 197f220fa62Smrg 198f220fa62Smrg int i, j; 199f220fa62Smrg 200f220fa62Smrg // compute scale factor 201f220fa62Smrg REAL fac = 1.0; 202f220fa62Smrg { 203f220fa62Smrg REAL invs = 1.0 / srange; 204f220fa62Smrg REAL invt = 1.0 / trange; 205f220fa62Smrg for( int s = nrows-1, slast = s-spartial; s != slast; s-- ) 206f220fa62Smrg fac *= s * invs; 207f220fa62Smrg for( int t = ncols-1, tlast = t-tpartial; t != tlast; t-- ) 208f220fa62Smrg fac *= t * invt; 209f220fa62Smrg } 210f220fa62Smrg 211f220fa62Smrg if( side == 0 ) { 212f220fa62Smrg // compute max magnitude of first and last column 213f220fa62Smrg dist[0] = 0.0; 214f220fa62Smrg dist[1] = 0.0; 215f220fa62Smrg for( i=0; i != nrows-spartial; i++ ) { 216f220fa62Smrg j = 0; 217f220fa62Smrg if( mag[i][j] > dist[0] ) dist[0] = mag[i][j]; 218f220fa62Smrg 219f220fa62Smrg j = ncols-tpartial-1; 220f220fa62Smrg if( mag[i][j] > dist[1] ) dist[1] = mag[i][j]; 221f220fa62Smrg } 222f220fa62Smrg dist[0] = fac * sqrtf( dist[0] ); 223f220fa62Smrg dist[1] = fac * sqrtf( dist[1] ); 224f220fa62Smrg } else if( side == 1 ) { 225f220fa62Smrg // compute max magnitude of first and last row 226f220fa62Smrg dist[0] = 0.0; 227f220fa62Smrg dist[1] = 0.0; 228f220fa62Smrg for( j=0; j != ncols-tpartial; j++ ) { 229f220fa62Smrg i = 0; 230f220fa62Smrg if( mag[i][j] > dist[0] ) dist[0] = mag[i][j]; 231f220fa62Smrg 232f220fa62Smrg i = nrows-spartial-1; 233f220fa62Smrg if( mag[i][j] > dist[1] ) dist[1] = mag[i][j]; 234f220fa62Smrg } 235f220fa62Smrg dist[0] = fac * sqrtf( dist[0] ); 236f220fa62Smrg dist[1] = fac * sqrtf( dist[1] ); 237f220fa62Smrg } 238f220fa62Smrg 239f220fa62Smrg max = fac * sqrtf( (float) max ); 240f220fa62Smrg 241f220fa62Smrg return max; 242f220fa62Smrg} 243f220fa62Smrg 244