From a0c4815433ccd57322f4f7703ca35e9ccfa59250 Mon Sep 17 00:00:00 2001 From: marha Date: Thu, 8 Oct 2009 13:15:52 +0000 Subject: Added MesaLib-7.6 --- mesalib/src/glu/sgi/libnurbs/internals/mapdesc.cc | 841 ++++++++++++++++++++++ 1 file changed, 841 insertions(+) create mode 100644 mesalib/src/glu/sgi/libnurbs/internals/mapdesc.cc (limited to 'mesalib/src/glu/sgi/libnurbs/internals/mapdesc.cc') diff --git a/mesalib/src/glu/sgi/libnurbs/internals/mapdesc.cc b/mesalib/src/glu/sgi/libnurbs/internals/mapdesc.cc new file mode 100644 index 000000000..d59f8fd39 --- /dev/null +++ b/mesalib/src/glu/sgi/libnurbs/internals/mapdesc.cc @@ -0,0 +1,841 @@ +/* +** License Applicability. Except to the extent portions of this file are +** made subject to an alternative license as permitted in the SGI Free +** Software License B, Version 1.1 (the "License"), the contents of this +** file are subject only to the provisions of the License. You may not use +** this file except in compliance with the License. You may obtain a copy +** of the License at Silicon Graphics, Inc., attn: Legal Services, 1600 +** Amphitheatre Parkway, Mountain View, CA 94043-1351, or at: +** +** http://oss.sgi.com/projects/FreeB +** +** Note that, as provided in the License, the Software is distributed on an +** "AS IS" basis, with ALL EXPRESS AND IMPLIED WARRANTIES AND CONDITIONS +** DISCLAIMED, INCLUDING, WITHOUT LIMITATION, ANY IMPLIED WARRANTIES AND +** CONDITIONS OF MERCHANTABILITY, SATISFACTORY QUALITY, FITNESS FOR A +** PARTICULAR PURPOSE, AND NON-INFRINGEMENT. +** +** Original Code. The Original Code is: OpenGL Sample Implementation, +** Version 1.2.1, released January 26, 2000, developed by Silicon Graphics, +** Inc. The Original Code is Copyright (c) 1991-2000 Silicon Graphics, Inc. +** Copyright in any portions created by third parties is as indicated +** elsewhere herein. All Rights Reserved. +** +** Additional Notice Provisions: The application programming interfaces +** established by SGI in conjunction with the Original Code are The +** OpenGL(R) Graphics System: A Specification (Version 1.2.1), released +** April 1, 1999; The OpenGL(R) Graphics System Utility Library (Version +** 1.3), released November 4, 1998; and OpenGL(R) Graphics with the X +** Window System(R) (Version 1.3), released October 19, 1998. This software +** was created using the OpenGL(R) version 1.2.1 Sample Implementation +** published by SGI, but has not been independently verified as being +** compliant with the OpenGL(R) version 1.2.1 Specification. +*/ + +/* + * mapdesc.c++ + * + */ + +#include +#include "glimports.h" +#include "mystdio.h" +#include "myassert.h" +#include "mystring.h" +#include "mymath.h" +#include "backend.h" +#include "nurbsconsts.h" +#include "mapdesc.h" + +Mapdesc::Mapdesc( long _type, int _israt, int _ncoords, Backend& b ) + : backend( b ) +{ + type = _type; + isrational = _israt; + ncoords = _ncoords; + hcoords = _ncoords + (_israt ? 0 : 1 ); + inhcoords = _ncoords - (_israt ? 1 : 0 ); + mask = ((1<<(inhcoords*2))-1); + next = 0; + + assert( hcoords <= MAXCOORDS ); + assert( inhcoords >= 1 ); + + pixel_tolerance = 1.0; + error_tolerance = 1.0; + bbox_subdividing = N_NOBBOXSUBDIVISION; + culling_method = N_NOCULLING; + sampling_method = N_NOSAMPLING; + clampfactor = N_NOCLAMPING; + minsavings = N_NOSAVINGSSUBDIVISION; + s_steps = 0.0; + t_steps = 0.0; + maxrate = ( s_steps < 0.0 ) ? 0.0 : s_steps; + maxsrate = ( s_steps < 0.0 ) ? 0.0 : s_steps; + maxtrate = ( t_steps < 0.0 ) ? 0.0 : t_steps; + identify( bmat ); + identify( cmat ); + identify( smat ); + for( int i = 0; i != inhcoords; i++ ) + bboxsize[i] = 1.0; +} + +void +Mapdesc::setBboxsize( INREAL *mat ) +{ + for( int i = 0; i != inhcoords; i++ ) + bboxsize[i] = (REAL) mat[i]; +} + +void +Mapdesc::identify( REAL dest[MAXCOORDS][MAXCOORDS] ) +{ + memset( dest, 0, sizeof( dest ) ); + for( int i=0; i != hcoords; i++ ) + dest[i][i] = 1.0; +} + +void +Mapdesc::surfbbox( REAL bb[2][MAXCOORDS] ) +{ + backend.surfbbox( type, bb[0], bb[1] ); +} + +void +Mapdesc::copy( REAL dest[MAXCOORDS][MAXCOORDS], long n, INREAL *src, + long rstride, long cstride ) +{ + assert( n >= 0 ); + for( int i=0; i != n; i++ ) + for( int j=0; j != n; j++ ) + dest[i][j] = src[i*rstride + j*cstride]; +} + +/*-------------------------------------------------------------------------- + * copyPt - copy a homogeneous point + *-------------------------------------------------------------------------- + */ +void +Mapdesc::copyPt( REAL *d, REAL *s ) +{ + assert( hcoords > 0 ); + switch( hcoords ) { + case 4: + d[3] = s[3]; + d[2] = s[2]; + d[1] = s[1]; + d[0] = s[0]; + break; + case 3: + d[2] = s[2]; + d[1] = s[1]; + d[0] = s[0]; + break; + case 2: + d[1] = s[1]; + d[0] = s[0]; + break; + case 1: + d[0] = s[0]; + break; + case 5: + d[4] = s[4]; + d[3] = s[3]; + d[2] = s[2]; + d[1] = s[1]; + d[0] = s[0]; + break; + default: + memcpy( d, s, hcoords * sizeof( REAL ) ); + break; + } +} + +/*-------------------------------------------------------------------------- + * sumPt - compute affine combination of two homogeneous points + *-------------------------------------------------------------------------- + */ +void +Mapdesc::sumPt( REAL *dst, REAL *src1, REAL *src2, register REAL alpha, register REAL beta ) +{ + assert( hcoords > 0 ); + switch( hcoords ) { + case 4: + dst[3] = src1[3] * alpha + src2[3] * beta; + dst[2] = src1[2] * alpha + src2[2] * beta; + dst[1] = src1[1] * alpha + src2[1] * beta; + dst[0] = src1[0] * alpha + src2[0] * beta; + break; + case 3: + dst[2] = src1[2] * alpha + src2[2] * beta; + dst[1] = src1[1] * alpha + src2[1] * beta; + dst[0] = src1[0] * alpha + src2[0] * beta; + break; + case 2: + dst[1] = src1[1] * alpha + src2[1] * beta; + dst[0] = src1[0] * alpha + src2[0] * beta; + break; + case 1: + dst[0] = src1[0] * alpha + src2[0] * beta; + break; + case 5: + dst[4] = src1[4] * alpha + src2[4] * beta; + dst[3] = src1[3] * alpha + src2[3] * beta; + dst[2] = src1[2] * alpha + src2[2] * beta; + dst[1] = src1[1] * alpha + src2[1] * beta; + dst[0] = src1[0] * alpha + src2[0] * beta; + break; + default: { + for( int i = 0; i != hcoords; i++ ) + dst[i] = src1[i] * alpha + src2[i] * beta; + } + break; + } +} + +/*-------------------------------------------------------------------------- + * clipbits - compute bit-vector indicating point/window position + * of a (transformed) homogeneous point + *-------------------------------------------------------------------------- + */ +unsigned int +Mapdesc::clipbits( REAL *p ) +{ + assert( inhcoords >= 0 ); + assert( inhcoords <= 3 ); + + register int nc = inhcoords; + register REAL pw = p[nc]; + register REAL nw = -pw; + register unsigned int bits = 0; + + if( pw == 0.0 ) return mask; + + if( pw > 0.0 ) { + switch( nc ) { + case 3: + if( p[2] <= pw ) bits |= (1<<5); + if( p[2] >= nw ) bits |= (1<<4); + if( p[1] <= pw ) bits |= (1<<3); + if( p[1] >= nw ) bits |= (1<<2); + if( p[0] <= pw ) bits |= (1<<1); + if( p[0] >= nw ) bits |= (1<<0); + return bits; + case 2: + if( p[1] <= pw ) bits |= (1<<3); + if( p[1] >= nw ) bits |= (1<<2); + if( p[0] <= pw ) bits |= (1<<1); + if( p[0] >= nw ) bits |= (1<<0); + return bits; + case 1: + if( p[0] <= pw ) bits |= (1<<1); + if( p[0] >= nw ) bits |= (1<<0); + return bits; + default: { + int bit = 1; + for( int i=0; i= nw ) bits |= bit; + bit <<= 1; + if( p[i] <= pw ) bits |= bit; + bit <<= 1; + } + abort(); + break; + } + } + } else { + switch( nc ) { + case 3: + if( p[2] <= nw ) bits |= (1<<5); + if( p[2] >= pw ) bits |= (1<<4); + if( p[1] <= nw ) bits |= (1<<3); + if( p[1] >= pw ) bits |= (1<<2); + if( p[0] <= nw ) bits |= (1<<1); + if( p[0] >= pw ) bits |= (1<<0); + return bits; + case 2: + if( p[1] <= nw ) bits |= (1<<3); + if( p[1] >= pw ) bits |= (1<<2); + if( p[0] <= nw ) bits |= (1<<1); + if( p[0] >= pw ) bits |= (1<<0); + return bits; + case 1: + if( p[0] <= nw ) bits |= (1<<1); + if( p[0] >= pw ) bits |= (1<<0); + return bits; + default: { + int bit = 1; + for( int i=0; i= pw ) bits |= bit; + bit <<= 1; + if( p[i] <= nw ) bits |= bit; + bit <<= 1; + } + abort(); + break; + } + } + } + return bits; +} + +/*-------------------------------------------------------------------------- + * xformRational - transform a homogeneous point + *-------------------------------------------------------------------------- + */ +void +Mapdesc::xformRational( Maxmatrix mat, REAL *d, REAL *s ) +{ + assert( hcoords >= 0 ); + + if( hcoords == 3 ) { + REAL x = s[0]; + REAL y = s[1]; + REAL z = s[2]; + d[0] = x*mat[0][0]+y*mat[1][0]+z*mat[2][0]; + d[1] = x*mat[0][1]+y*mat[1][1]+z*mat[2][1]; + d[2] = x*mat[0][2]+y*mat[1][2]+z*mat[2][2]; + } else if( hcoords == 4 ) { + REAL x = s[0]; + REAL y = s[1]; + REAL z = s[2]; + REAL w = s[3]; + d[0] = x*mat[0][0]+y*mat[1][0]+z*mat[2][0]+w*mat[3][0]; + d[1] = x*mat[0][1]+y*mat[1][1]+z*mat[2][1]+w*mat[3][1]; + d[2] = x*mat[0][2]+y*mat[1][2]+z*mat[2][2]+w*mat[3][2]; + d[3] = x*mat[0][3]+y*mat[1][3]+z*mat[2][3]+w*mat[3][3]; + } else { + for( int i=0; i != hcoords; i++ ) { + d[i] = 0; + for( int j = 0; j != hcoords; j++ ) + d[i] += s[j] * mat[j][i]; + } + } +} + +/*-------------------------------------------------------------------------- + * xformNonrational - transform a inhomogeneous point to a homogeneous point + *-------------------------------------------------------------------------- + */ +void +Mapdesc::xformNonrational( Maxmatrix mat, REAL *d, REAL *s ) +{ + if( inhcoords == 2 ) { + REAL x = s[0]; + REAL y = s[1]; + d[0] = x*mat[0][0]+y*mat[1][0]+mat[2][0]; + d[1] = x*mat[0][1]+y*mat[1][1]+mat[2][1]; + d[2] = x*mat[0][2]+y*mat[1][2]+mat[2][2]; + } else if( inhcoords == 3 ) { + REAL x = s[0]; + REAL y = s[1]; + REAL z = s[2]; + d[0] = x*mat[0][0]+y*mat[1][0]+z*mat[2][0]+mat[3][0]; + d[1] = x*mat[0][1]+y*mat[1][1]+z*mat[2][1]+mat[3][1]; + d[2] = x*mat[0][2]+y*mat[1][2]+z*mat[2][2]+mat[3][2]; + d[3] = x*mat[0][3]+y*mat[1][3]+z*mat[2][3]+mat[3][3]; + } else { + assert( inhcoords >= 0 ); + for( int i=0; i != hcoords; i++ ) { + d[i] = mat[inhcoords][i]; + for( int j = 0; j < inhcoords; j++ ) + d[i] += s[j] * mat[j][i]; + } + } +} + +/*-------------------------------------------------------------------------- + * xformAndCullCheck - transform a set of points that may be EITHER + * homogeneous or inhomogeneous depending on the map description and + * check if they are either completely inside, completely outside, + * or intersecting the viewing frustrum. + *-------------------------------------------------------------------------- + */ +int +Mapdesc::xformAndCullCheck( + REAL *pts, int uorder, int ustride, int vorder, int vstride ) +{ + assert( uorder > 0 ); + assert( vorder > 0 ); + + unsigned int inbits = mask; + unsigned int outbits = 0; + + REAL *p = pts; + for( REAL *pend = p + uorder * ustride; p != pend; p += ustride ) { + REAL *q = p; + for( REAL *qend = q + vorder * vstride; q != qend; q += vstride ) { + REAL cpts[MAXCOORDS]; + xformCulling( cpts, q ); + unsigned int bits = clipbits( cpts ); + outbits |= bits; + inbits &= bits; + if( ( outbits == (unsigned int)mask ) && ( inbits != (unsigned int)mask ) ) return CULL_ACCEPT; + } + } + + if( outbits != (unsigned int)mask ) { + return CULL_TRIVIAL_REJECT; + } else if( inbits == (unsigned int)mask ) { + return CULL_TRIVIAL_ACCEPT; + } else { + return CULL_ACCEPT; + } +} + +/*-------------------------------------------------------------------------- + * cullCheck - check if a set of homogeneous transformed points are + * either completely inside, completely outside, + * or intersecting the viewing frustrum. + *-------------------------------------------------------------------------- + */ +int +Mapdesc::cullCheck( REAL *pts, int uorder, int ustride, int vorder, int vstride ) +{ + unsigned int inbits = mask; + unsigned int outbits = 0; + + REAL *p = pts; + for( REAL *pend = p + uorder * ustride; p != pend; p += ustride ) { + REAL *q = p; + for( REAL *qend = q + vorder * vstride; q != qend; q += vstride ) { + unsigned int bits = clipbits( q ); + outbits |= bits; + inbits &= bits; + if( ( outbits == (unsigned int)mask ) && ( inbits != (unsigned int)mask ) ) return CULL_ACCEPT; + } + } + + if( outbits != (unsigned int)mask ) { + return CULL_TRIVIAL_REJECT; + } else if( inbits == (unsigned int)mask ) { + return CULL_TRIVIAL_ACCEPT; + } else { + return CULL_ACCEPT; + } +} + +/*-------------------------------------------------------------------------- + * cullCheck - check if a set of homogeneous transformed points are + * either completely inside, completely outside, + * or intersecting the viewing frustrum. + *-------------------------------------------------------------------------- + */ +int +Mapdesc::cullCheck( REAL *pts, int order, int stride ) +{ + unsigned int inbits = mask; + unsigned int outbits = 0; + + REAL *p = pts; + for( REAL *pend = p + order * stride; p != pend; p += stride ) { + unsigned int bits = clipbits( p ); + outbits |= bits; + inbits &= bits; + if( ( outbits == (unsigned int)mask ) && ( inbits != (unsigned int)mask ) ) return CULL_ACCEPT; + } + + if( outbits != (unsigned int)mask ) { + return CULL_TRIVIAL_REJECT; + } else if( inbits == (unsigned int)mask ) { + return CULL_TRIVIAL_ACCEPT; + } else { + return CULL_ACCEPT; + } +} + +/*-------------------------------------------------------------------------- + * xformSampling - transform a set of points that may be EITHER + * homogeneous or inhomogeneous depending on the map description + * into sampling space + *-------------------------------------------------------------------------- + */ +void +Mapdesc::xformSampling( REAL *pts, int order, int stride, REAL *sp, int outstride ) +{ + xformMat( smat, pts, order, stride, sp, outstride ); +} + +void +Mapdesc::xformBounding( REAL *pts, int order, int stride, REAL *sp, int outstride ) +{ + xformMat( bmat, pts, order, stride, sp, outstride ); +} + +/*-------------------------------------------------------------------------- + * xformCulling - transform a set of points that may be EITHER + * homogeneous or inhomogeneous depending on the map description + * into culling space + *-------------------------------------------------------------------------- + */ +void +Mapdesc::xformCulling( REAL *pts, int order, int stride, REAL *cp, int outstride ) +{ + xformMat( cmat, pts, order, stride, cp, outstride ); +} + +/*-------------------------------------------------------------------------- + * xformCulling - transform a set of points that may be EITHER + * homogeneous or inhomogeneous depending on the map description + * into culling space + *-------------------------------------------------------------------------- + */ +void +Mapdesc::xformCulling( REAL *pts, + int uorder, int ustride, + int vorder, int vstride, + REAL *cp, int outustride, int outvstride ) +{ + xformMat( cmat, pts, uorder, ustride, vorder, vstride, cp, outustride, outvstride ); +} + +/*-------------------------------------------------------------------------- + * xformSampling - transform a set of points that may be EITHER + * homogeneous or inhomogeneous depending on the map description + * into sampling space + *-------------------------------------------------------------------------- + */ +void +Mapdesc::xformSampling( REAL *pts, + int uorder, int ustride, + int vorder, int vstride, + REAL *sp, int outustride, int outvstride ) +{ + xformMat( smat, pts, uorder, ustride, vorder, vstride, sp, outustride, outvstride ); +} + +void +Mapdesc::xformBounding( REAL *pts, + int uorder, int ustride, + int vorder, int vstride, + REAL *sp, int outustride, int outvstride ) +{ + xformMat( bmat, pts, uorder, ustride, vorder, vstride, sp, outustride, outvstride ); +} + +void +Mapdesc::xformMat( + Maxmatrix mat, + REAL * pts, + int order, + int stride, + REAL * cp, + int outstride ) +{ + if( isrational ) { + REAL *pend = pts + order * stride; + for( REAL *p = pts ; p != pend; p += stride ) { + xformRational( mat, cp, p ); + cp += outstride; + } + } else { + REAL *pend = pts + order * stride; + for( REAL *p = pts ; p != pend; p += stride ) { + xformNonrational( mat, cp, p ); + cp += outstride; + } + } +} + +void +Mapdesc::xformMat( Maxmatrix mat, REAL *pts, + int uorder, int ustride, + int vorder, int vstride, + REAL *cp, int outustride, int outvstride ) +{ + if( isrational ) { + REAL *pend = pts + uorder * ustride; + for( REAL *p = pts ; p != pend; p += ustride ) { + REAL *cpts2 = cp; + REAL *qend = p + vorder * vstride; + for( REAL *q = p; q != qend; q += vstride ) { + xformRational( mat, cpts2, q ); + cpts2 += outvstride; + } + cp += outustride; + } + } else { + REAL *pend = pts + uorder * ustride; + for( REAL *p = pts ; p != pend; p += ustride ) { + REAL *cpts2 = cp; + REAL *qend = p + vorder * vstride; + for( REAL *q = p; q != qend; q += vstride ) { + xformNonrational( mat, cpts2, q ); + cpts2 += outvstride; + } + cp += outustride; + } + } +} + +/*-------------------------------------------------------------------------- + * subdivide - subdivide a curve along an isoparametric line + *-------------------------------------------------------------------------- + */ + +void +Mapdesc::subdivide( REAL *src, REAL *dst, REAL v, int stride, int order ) +{ + REAL mv = 1.0 - v; + + for( REAL *send=src+stride*order; src!=send; send-=stride, dst+=stride ) { + copyPt( dst, src ); + REAL *qpnt = src + stride; + for( REAL *qp=src; qpnt!=send; qp=qpnt, qpnt+=stride ) + sumPt( qp, qp, qpnt, mv, v ); + } +} + +/*-------------------------------------------------------------------------- + * subdivide - subdivide a patch along an isoparametric line + *-------------------------------------------------------------------------- + */ + +void +Mapdesc::subdivide( REAL *src, REAL *dst, REAL v, + int so, int ss, int to, int ts ) +{ + REAL mv = 1.0 - v; + + for( REAL *slast = src+ss*so; src != slast; src += ss, dst += ss ) { + REAL *sp = src; + REAL *dp = dst; + for( REAL *send = src+ts*to; sp != send; send -= ts, dp += ts ) { + copyPt( dp, sp ); + REAL *qp = sp; + for( REAL *qpnt = sp+ts; qpnt != send; qp = qpnt, qpnt += ts ) + sumPt( qp, qp, qpnt, mv, v ); + } + } +} + + +#define sign(x) ((x > 0) ? 1 : ((x < 0.0) ? -1 : 0)) + +/*-------------------------------------------------------------------------- + * project - project a set of homogeneous coordinates into inhomogeneous ones + *-------------------------------------------------------------------------- + */ +int +Mapdesc::project( REAL *src, int rstride, int cstride, + REAL *dest, int trstride, int tcstride, + int nrows, int ncols ) +{ + int s = sign( src[inhcoords] ); + REAL *rlast = src + nrows * rstride; + REAL *trptr = dest; + for( REAL *rptr=src; rptr != rlast; rptr+=rstride, trptr+=trstride ) { + REAL *clast = rptr + ncols * cstride; + REAL *tcptr = trptr; + for( REAL *cptr = rptr; cptr != clast; cptr+=cstride, tcptr+=tcstride ) { + REAL *coordlast = cptr + inhcoords; + if( sign( *coordlast ) != s ) return 0; + REAL *tcoord = tcptr; + for( REAL *coord = cptr; coord != coordlast; coord++, tcoord++ ) { + *tcoord = *coord / *coordlast; + } + } + } + return 1; +} + +/*-------------------------------------------------------------------------- + * project - project a set of homogeneous coordinates into inhomogeneous ones + *-------------------------------------------------------------------------- + */ +int +Mapdesc::project( REAL *src, int stride, REAL *dest, int tstride, int ncols ) +{ + int s = sign( src[inhcoords] ); + + REAL *clast = src + ncols * stride; + for( REAL *cptr = src, *tcptr = dest; cptr != clast; cptr+=stride, tcptr+=tstride ) { + REAL *coordlast = cptr + inhcoords; + if( sign( *coordlast ) != s ) return 0; + for( REAL *coord = cptr, *tcoord = tcptr; coord != coordlast; coord++, tcoord++ ) + *tcoord = *coord / *coordlast; + } + + return 1; +} + +int +Mapdesc::bboxTooBig( + REAL *p, + int rstride, + int cstride, + int nrows, + int ncols, + REAL bb[2][MAXCOORDS] ) +{ + REAL bbpts[MAXORDER][MAXORDER][MAXCOORDS]; + const int trstride = sizeof(bbpts[0]) / sizeof(REAL); + const int tcstride = sizeof(bbpts[0][0]) / sizeof(REAL); + + // points have been transformed, therefore they are homogeneous + // project points + int val = project( p, rstride, cstride, + &bbpts[0][0][0], trstride, tcstride, nrows, ncols ); + if( val == 0 ) return -1; + + // compute bounding box + bbox( bb, &bbpts[0][0][0], trstride, tcstride, nrows, ncols ); + + // find out if bounding box can't fit in unit cube + if( bbox_subdividing == N_BBOXROUND ) { + for( int k=0; k != inhcoords; k++ ) + if( ceilf(bb[1][k]) - floorf(bb[0][k]) > bboxsize[k] ) return 1; + } else { + for( int k=0; k != inhcoords; k++ ) + if( bb[1][k] - bb[0][k] > bboxsize[k] ) return 1; + } + return 0; +} + +void +Mapdesc::bbox( + REAL bb[2][MAXCOORDS], + REAL *p, + int rstride, + int cstride, + int nrows, + int ncols ) +{ + int k; + for( k=0; k != inhcoords; k++ ) + bb[0][k] = bb[1][k] = p[k]; + + for( int i=0; i != nrows; i++ ) + for( int j=0; j != ncols; j++ ) + for( k=0; k != inhcoords; k++ ) { + REAL x = p[i*rstride + j*cstride + k]; + if( x < bb[0][k] ) bb[0][k] = x; + else if( x > bb[1][k] ) bb[1][k] = x; + } +} + +/*-------------------------------------------------------------------------- + * calcVelocityRational - calculate upper bound on first partial derivative + * of a homogeneous set of points and bounds on each row of points. + *-------------------------------------------------------------------------- + */ +REAL +Mapdesc::calcVelocityRational( REAL *p, int stride, int ncols ) +{ + REAL tmp[MAXORDER][MAXCOORDS]; + + assert( ncols <= MAXORDER ); + + const int tstride = sizeof(tmp[0]) / sizeof(REAL); + + if( project( p, stride, &tmp[0][0], tstride, ncols ) ) { + return calcPartialVelocity( &tmp[0][0], tstride, ncols, 1, 1.0 ); + } else { /* XXX */ + return calcPartialVelocity( &tmp[0][0], tstride, ncols, 1, 1.0 ); + } +} + +/*-------------------------------------------------------------------------- + * calcVelocityNonrational - calculate upper bound on first partial + * derivative of a inhomogeneous set of points. + *-------------------------------------------------------------------------- + */ +REAL +Mapdesc::calcVelocityNonrational( REAL *pts, int stride, int ncols ) +{ + return calcPartialVelocity( pts, stride, ncols, 1, 1.0 ); +} + +int +Mapdesc::isProperty( long property ) +{ + switch ( property ) { + case N_PIXEL_TOLERANCE: + case N_ERROR_TOLERANCE: + case N_CULLING: + case N_BBOX_SUBDIVIDING: + case N_S_STEPS: + case N_T_STEPS: + case N_SAMPLINGMETHOD: + case N_CLAMPFACTOR: + case N_MINSAVINGS: + return 1; + default: + return 0; + } +} + +REAL +Mapdesc::getProperty( long property ) +{ + switch ( property ) { + case N_PIXEL_TOLERANCE: + return pixel_tolerance; + case N_ERROR_TOLERANCE: + return error_tolerance; + case N_CULLING: + return culling_method; + case N_BBOX_SUBDIVIDING: + return bbox_subdividing; + case N_S_STEPS: + return s_steps; + case N_T_STEPS: + return t_steps; + case N_SAMPLINGMETHOD: + return sampling_method; + case N_CLAMPFACTOR: + return clampfactor; + case N_MINSAVINGS: + return minsavings; + default: + abort(); + return -1; //not necessary, needed to shut up compiler + } +} + +void +Mapdesc::setProperty( long property, REAL value ) +{ + + switch ( property ) { + case N_PIXEL_TOLERANCE: + pixel_tolerance = value; + break; + case N_ERROR_TOLERANCE: + error_tolerance = value; + break; + case N_CULLING: + culling_method = value; + break; + case N_BBOX_SUBDIVIDING: + if( value <= 0.0 ) value = N_NOBBOXSUBDIVISION; + bbox_subdividing = value; + break; + case N_S_STEPS: + if( value < 0.0 ) value = 0.0; + s_steps = value; + maxrate = ( value < 0.0 ) ? 0.0 : value; + maxsrate = ( value < 0.0 ) ? 0.0 : value; + break; + case N_T_STEPS: + if( value < 0.0 ) value = 0.0; + t_steps = value; + maxtrate = ( value < 0.0 ) ? 0.0 : value; + break; + case N_SAMPLINGMETHOD: + sampling_method = value; + break; + case N_CLAMPFACTOR: + if( value <= 0.0 ) value = N_NOCLAMPING; + clampfactor = value; + break; + case N_MINSAVINGS: + if( value <= 0.0 ) value = N_NOSAVINGSSUBDIVISION; + minsavings = value; + break; + default: + abort(); + break; + } +} + -- cgit v1.2.3