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/* $Id: nurbscrv.c,v 1.3 2000/11/10 17:23:04 brianp Exp $ */
/*
* Mesa 3-D graphics library
* Version: 3.3
* Copyright (C) 1995-2000 Brian Paul
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Library General Public
* License as published by the Free Software Foundation; either
* version 2 of the License, or (at your option) any later version.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Library General Public License for more details.
*
* You should have received a copy of the GNU Library General Public
* License along with this library; if not, write to the Free
* Software Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
*/
/*
* NURBS implementation written by Bogdan Sikorski (bogdan@cira.it)
* See README2 for more info.
*/
#ifdef PC_HEADER
#include "all.h"
#else
#include <math.h>
#include <stdlib.h>
#include "gluP.h"
#include "nurbs.h"
#endif
static int
get_curve_dim(GLenum type)
{
switch (type) {
case GL_MAP1_VERTEX_3:
return 3;
case GL_MAP1_VERTEX_4:
return 4;
case GL_MAP1_INDEX:
return 1;
case GL_MAP1_COLOR_4:
return 4;
case GL_MAP1_NORMAL:
return 3;
case GL_MAP1_TEXTURE_COORD_1:
return 1;
case GL_MAP1_TEXTURE_COORD_2:
return 2;
case GL_MAP1_TEXTURE_COORD_3:
return 3;
case GL_MAP1_TEXTURE_COORD_4:
return 4;
default:
abort(); /* TODO: is this OK? */
}
return 0; /*never get here */
}
static GLenum
test_nurbs_curve(GLUnurbsObj * nobj, curve_attribs * attribs)
{
GLenum err;
GLint tmp_int;
if (attribs->order < 0) {
call_user_error(nobj, GLU_INVALID_VALUE);
return GLU_ERROR;
}
glGetIntegerv(GL_MAX_EVAL_ORDER, &tmp_int);
if (attribs->order > tmp_int || attribs->order < 2) {
call_user_error(nobj, GLU_NURBS_ERROR1);
return GLU_ERROR;
}
if (attribs->knot_count < attribs->order + 2) {
call_user_error(nobj, GLU_NURBS_ERROR2);
return GLU_ERROR;
}
if (attribs->stride < 0) {
call_user_error(nobj, GLU_NURBS_ERROR34);
return GLU_ERROR;
}
if (attribs->knot == NULL || attribs->ctrlarray == NULL) {
call_user_error(nobj, GLU_NURBS_ERROR36);
return GLU_ERROR;
}
if ((err = test_knot(attribs->knot_count, attribs->knot, attribs->order))
!= GLU_NO_ERROR) {
call_user_error(nobj, err);
return GLU_ERROR;
}
return GLU_NO_ERROR;
}
static GLenum
test_nurbs_curves(GLUnurbsObj * nobj)
{
/* test the geometric data */
if (test_nurbs_curve(nobj, &(nobj->curve.geom)) != GLU_NO_ERROR)
return GLU_ERROR;
/* now test the attributive data */
/* color */
if (nobj->curve.color.type != GLU_INVALID_ENUM)
if (test_nurbs_curve(nobj, &(nobj->curve.color)) != GLU_NO_ERROR)
return GLU_ERROR;
/* normal */
if (nobj->curve.normal.type != GLU_INVALID_ENUM)
if (test_nurbs_curve(nobj, &(nobj->curve.normal)) != GLU_NO_ERROR)
return GLU_ERROR;
/* texture */
if (nobj->curve.texture.type != GLU_INVALID_ENUM)
if (test_nurbs_curve(nobj, &(nobj->curve.texture)) != GLU_NO_ERROR)
return GLU_ERROR;
return GLU_NO_ERROR;
}
/* prepare the knot information structures */
static GLenum
fill_knot_structures(GLUnurbsObj * nobj, knot_str_type * geom_knot,
knot_str_type * color_knot, knot_str_type * normal_knot,
knot_str_type * texture_knot)
{
GLint order;
GLfloat *knot;
GLint nknots;
GLint t_min, t_max;
geom_knot->unified_knot = NULL;
knot = geom_knot->knot = nobj->curve.geom.knot;
nknots = geom_knot->nknots = nobj->curve.geom.knot_count;
order = geom_knot->order = nobj->curve.geom.order;
geom_knot->delta_nknots = 0;
t_min = geom_knot->t_min = order - 1;
t_max = geom_knot->t_max = nknots - order;
if (fabs(knot[t_min] - knot[t_max]) < EPSILON) {
call_user_error(nobj, GLU_NURBS_ERROR3);
return GLU_ERROR;
}
if (fabs(knot[0] - knot[t_min]) < EPSILON) {
/* knot open at beggining */
geom_knot->open_at_begin = GL_TRUE;
}
else
geom_knot->open_at_begin = GL_FALSE;
if (fabs(knot[t_max] - knot[nknots - 1]) < EPSILON) {
/* knot open at end */
geom_knot->open_at_end = GL_TRUE;
}
else
geom_knot->open_at_end = GL_FALSE;
if (nobj->curve.color.type != GLU_INVALID_ENUM) {
color_knot->unified_knot = (GLfloat *) 1;
knot = color_knot->knot = nobj->curve.color.knot;
nknots = color_knot->nknots = nobj->curve.color.knot_count;
order = color_knot->order = nobj->curve.color.order;
color_knot->delta_nknots = 0;
t_min = color_knot->t_min = order - 1;
t_max = color_knot->t_max = nknots - order;
if (fabs(knot[t_min] - knot[t_max]) < EPSILON) {
call_user_error(nobj, GLU_NURBS_ERROR3);
return GLU_ERROR;
}
if (fabs(knot[0] - knot[t_min]) < EPSILON) {
/* knot open at beggining */
color_knot->open_at_begin = GL_TRUE;
}
else
color_knot->open_at_begin = GL_FALSE;
if (fabs(knot[t_max] - knot[nknots - 1]) < EPSILON) {
/* knot open at end */
color_knot->open_at_end = GL_TRUE;
}
else
color_knot->open_at_end = GL_FALSE;
}
else
color_knot->unified_knot = NULL;
if (nobj->curve.normal.type != GLU_INVALID_ENUM) {
normal_knot->unified_knot = (GLfloat *) 1;
knot = normal_knot->knot = nobj->curve.normal.knot;
nknots = normal_knot->nknots = nobj->curve.normal.knot_count;
order = normal_knot->order = nobj->curve.normal.order;
normal_knot->delta_nknots = 0;
t_min = normal_knot->t_min = order - 1;
t_max = normal_knot->t_max = nknots - order;
if (fabs(knot[t_min] - knot[t_max]) < EPSILON) {
call_user_error(nobj, GLU_NURBS_ERROR3);
return GLU_ERROR;
}
if (fabs(knot[0] - knot[t_min]) < EPSILON) {
/* knot open at beggining */
normal_knot->open_at_begin = GL_TRUE;
}
else
normal_knot->open_at_begin = GL_FALSE;
if (fabs(knot[t_max] - knot[nknots - 1]) < EPSILON) {
/* knot open at end */
normal_knot->open_at_end = GL_TRUE;
}
else
normal_knot->open_at_end = GL_FALSE;
}
else
normal_knot->unified_knot = NULL;
if (nobj->curve.texture.type != GLU_INVALID_ENUM) {
texture_knot->unified_knot = (GLfloat *) 1;
knot = texture_knot->knot = nobj->curve.texture.knot;
nknots = texture_knot->nknots = nobj->curve.texture.knot_count;
order = texture_knot->order = nobj->curve.texture.order;
texture_knot->delta_nknots = 0;
t_min = texture_knot->t_min = order - 1;
t_max = texture_knot->t_max = nknots - order;
if (fabs(knot[t_min] - knot[t_max]) < EPSILON) {
call_user_error(nobj, GLU_NURBS_ERROR3);
return GLU_ERROR;
}
if (fabs(knot[0] - knot[t_min]) < EPSILON) {
/* knot open at beggining */
texture_knot->open_at_begin = GL_TRUE;
}
else
texture_knot->open_at_begin = GL_FALSE;
if (fabs(knot[t_max] - knot[nknots - 1]) < EPSILON) {
/* knot open at end */
texture_knot->open_at_end = GL_TRUE;
}
else
texture_knot->open_at_end = GL_FALSE;
}
else
texture_knot->unified_knot = NULL;
return GLU_NO_ERROR;
}
/* covert the NURBS curve into a series of adjacent Bezier curves */
static GLenum
convert_curve(knot_str_type * the_knot, curve_attribs * attrib,
GLfloat ** new_ctrl, GLint * ncontrol)
{
GLenum err;
if ((err = explode_knot(the_knot)) != GLU_NO_ERROR) {
if (the_knot->unified_knot) {
free(the_knot->unified_knot);
the_knot->unified_knot = NULL;
}
return err;
}
if (the_knot->unified_knot) {
free(the_knot->unified_knot);
the_knot->unified_knot = NULL;
}
if ((err = calc_alphas(the_knot)) != GLU_NO_ERROR) {
free(the_knot->new_knot);
return err;
}
free(the_knot->new_knot);
if ((err = calc_new_ctrl_pts(attrib->ctrlarray, attrib->stride, the_knot,
attrib->dim, new_ctrl, ncontrol))
!= GLU_NO_ERROR) {
free(the_knot->alpha);
return err;
}
free(the_knot->alpha);
return GLU_NO_ERROR;
}
/* covert curves - geometry and possible attribute ones into equivalent */
/* sequence of adjacent Bezier curves */
static GLenum
convert_curves(GLUnurbsObj * nobj, GLfloat ** new_geom_ctrl,
GLint * ncontrol, GLfloat ** new_color_ctrl,
GLfloat ** new_normal_ctrl, GLfloat ** new_texture_ctrl)
{
knot_str_type geom_knot, color_knot, normal_knot, texture_knot;
GLint junk;
GLenum err;
*new_color_ctrl = *new_normal_ctrl = *new_texture_ctrl = NULL;
if (fill_knot_structures(nobj, &geom_knot, &color_knot, &normal_knot,
&texture_knot) != GLU_NO_ERROR)
return GLU_ERROR;
/* unify knots - all knots should have the same number of working */
/* ranges */
if (
(err =
select_knot_working_range(nobj, &geom_knot, &color_knot, &normal_knot,
&texture_knot)) != GLU_NO_ERROR) {
return err;
}
/* convert the geometry curve */
nobj->curve.geom.dim = get_curve_dim(nobj->curve.geom.type);
if ((err = convert_curve(&geom_knot, &(nobj->curve.geom), new_geom_ctrl,
ncontrol)) != GLU_NO_ERROR) {
free_unified_knots(&geom_knot, &color_knot, &normal_knot,
&texture_knot);
call_user_error(nobj, err);
return err;
}
/* if additional attributive curves are given convert them as well */
if (color_knot.unified_knot) {
nobj->curve.color.dim = get_curve_dim(nobj->curve.color.type);
if ((err = convert_curve(&color_knot, &(nobj->curve.color),
new_color_ctrl, &junk)) != GLU_NO_ERROR) {
free_unified_knots(&geom_knot, &color_knot, &normal_knot,
&texture_knot);
free(*new_geom_ctrl);
call_user_error(nobj, err);
return err;
}
}
if (normal_knot.unified_knot) {
nobj->curve.normal.dim = get_curve_dim(nobj->curve.normal.type);
if ((err = convert_curve(&normal_knot, &(nobj->curve.normal),
new_normal_ctrl, &junk)) != GLU_NO_ERROR) {
free_unified_knots(&geom_knot, &color_knot, &normal_knot,
&texture_knot);
free(*new_geom_ctrl);
if (*new_color_ctrl)
free(*new_color_ctrl);
call_user_error(nobj, err);
return err;
}
}
if (texture_knot.unified_knot) {
nobj->curve.texture.dim = get_curve_dim(nobj->curve.texture.type);
if ((err = convert_curve(&texture_knot, &(nobj->curve.texture),
new_texture_ctrl, &junk)) != GLU_NO_ERROR) {
free_unified_knots(&geom_knot, &color_knot, &normal_knot,
&texture_knot);
free(*new_geom_ctrl);
if (*new_color_ctrl)
free(*new_color_ctrl);
if (*new_normal_ctrl)
free(*new_normal_ctrl);
call_user_error(nobj, err);
return err;
}
}
return GLU_NO_ERROR;
}
/* main NURBS curve procedure */
void
do_nurbs_curve(GLUnurbsObj * nobj)
{
GLint geom_order, color_order = 0, normal_order = 0, texture_order = 0;
GLenum geom_type;
GLint n_ctrl;
GLfloat *new_geom_ctrl, *new_color_ctrl, *new_normal_ctrl,
*new_texture_ctrl;
GLfloat *geom_ctrl = 0, *color_ctrl = 0, *normal_ctrl = 0, *texture_ctrl = 0;
GLint *factors;
GLint i, j;
GLint geom_dim, color_dim = 0, normal_dim = 0, texture_dim = 0;
/* test the user supplied data */
if (test_nurbs_curves(nobj) != GLU_NO_ERROR)
return;
if (convert_curves(nobj, &new_geom_ctrl, &n_ctrl, &new_color_ctrl,
&new_normal_ctrl, &new_texture_ctrl) != GLU_NO_ERROR)
return;
geom_order = nobj->curve.geom.order;
geom_type = nobj->curve.geom.type;
geom_dim = nobj->curve.geom.dim;
if (glu_do_sampling_crv(nobj, new_geom_ctrl, n_ctrl, geom_order, geom_dim,
&factors) != GLU_NO_ERROR) {
free(new_geom_ctrl);
if (new_color_ctrl)
free(new_color_ctrl);
if (new_normal_ctrl)
free(new_normal_ctrl);
if (new_texture_ctrl)
free(new_texture_ctrl);
return;
}
glEnable(geom_type);
if (new_color_ctrl) {
glEnable(nobj->curve.color.type);
color_dim = nobj->curve.color.dim;
color_ctrl = new_color_ctrl;
color_order = nobj->curve.color.order;
}
if (new_normal_ctrl) {
glEnable(nobj->curve.normal.type);
normal_dim = nobj->curve.normal.dim;
normal_ctrl = new_normal_ctrl;
normal_order = nobj->curve.normal.order;
}
if (new_texture_ctrl) {
glEnable(nobj->curve.texture.type);
texture_dim = nobj->curve.texture.dim;
texture_ctrl = new_texture_ctrl;
texture_order = nobj->curve.texture.order;
}
for (i = 0, j = 0, geom_ctrl = new_geom_ctrl;
i < n_ctrl; i += geom_order, j++, geom_ctrl += geom_order * geom_dim) {
if (fine_culling_test_2D
(nobj, geom_ctrl, geom_order, geom_dim, geom_dim)) {
color_ctrl += color_order * color_dim;
normal_ctrl += normal_order * normal_dim;
texture_ctrl += texture_order * texture_dim;
continue;
}
glMap1f(geom_type, 0.0, 1.0, geom_dim, geom_order, geom_ctrl);
if (new_color_ctrl) {
glMap1f(nobj->curve.color.type, 0.0, 1.0, color_dim,
color_order, color_ctrl);
color_ctrl += color_order * color_dim;
}
if (new_normal_ctrl) {
glMap1f(nobj->curve.normal.type, 0.0, 1.0, normal_dim,
normal_order, normal_ctrl);
normal_ctrl += normal_order * normal_dim;
}
if (new_texture_ctrl) {
glMap1f(nobj->curve.texture.type, 0.0, 1.0, texture_dim,
texture_order, texture_ctrl);
texture_ctrl += texture_order * texture_dim;
}
glMapGrid1f(factors[j], 0.0, 1.0);
glEvalMesh1(GL_LINE, 0, factors[j]);
}
free(new_geom_ctrl);
free(factors);
if (new_color_ctrl)
free(new_color_ctrl);
if (new_normal_ctrl)
free(new_normal_ctrl);
if (new_texture_ctrl)
free(new_texture_ctrl);
}
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