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/**
* @file
* @brief LinearN fragment function class
*//*
* Authors:
* JF Barraud <jf.barraud@gmail.com>
* Nathan Hurst <njh@mail.csse.monash.edu.au>
* Michael Sloan <mgsloan@gmail.com>
*
* Copyright (C) 2006-2007 authors
*
* This library is free software; you can redistribute it and/or
* modify it either under the terms of the GNU Lesser General Public
* License version 2.1 as published by the Free Software Foundation
* (the "LGPL") or, at your option, under the terms of the Mozilla
* Public License Version 1.1 (the "MPL"). If you do not alter this
* notice, a recipient may use your version of this file under either
* the MPL or the LGPL.
*
* You should have received a copy of the LGPL along with this library
* in the file COPYING-LGPL-2.1; if not, write to the Free Software
* Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
* You should have received a copy of the MPL along with this library
* in the file COPYING-MPL-1.1
*
* The contents of this file are subject to the Mozilla Public License
* Version 1.1 (the "License"); you may not use this file except in
* compliance with the License. You may obtain a copy of the License at
* http://www.mozilla.org/MPL/
*
* This software is distributed on an "AS IS" basis, WITHOUT WARRANTY
* OF ANY KIND, either express or implied. See the LGPL or the MPL for
* the specific language governing rights and limitations.
*/
#ifndef SEEN_LINEARN_H
#define SEEN_LINEARN_H
#include <2geom/interval.h>
#include <2geom/math-utils.h>
#include <2geom/linear.h> //for conversion purpose ( + lerp() )
#include <iostream>
namespace Geom{
//TODO: define this only once!! (see linear.h)
inline double lerpppp(double t, double a, double b) { return a*(1-t) + b*t; }
template<unsigned n>
class SBasisN;
template<unsigned n>
class LinearN{
public:
double a[1<<n];// 1<<n is 2^n
LinearN() {
for (unsigned i=0; i < (1<<n); i++){
a[i] = 0.;
}
}
LinearN(double aa[]) {
for (unsigned i=0; i < (1<<n); i++){
a[i] = aa[i];
}
}
LinearN(double c) {
for (unsigned i=0; i<(1<<n); i++){
a[i] = c;
}
}
LinearN(LinearN<n-1> const &aa, LinearN<n-1> const &b, unsigned var=0) {
// for (unsigned i=0; i<(1<<n-1); i++){
// a[i] = aa[i];
// a[i+(1<<(n-1))] = b[i];
// }
unsigned mask = (1<<var)-1;
for (unsigned i=0; i < (1<<(n-1)); i++){
unsigned low_i = i & mask, high_i = i & ~mask;
unsigned idx0 = (high_i<<1)|low_i;
unsigned idx1 = (high_i<<1)|(1<<var)|low_i;
a[idx0] = aa[i];
a[idx1] = b[i];
}
}
double operator[](const int i) const {
assert( i >= 0 );
assert( i < (1<<n) );
return a[i];
}
double& operator[](const int i) {
assert(i >= 0);
assert(i < (1<<n) );
return a[i];
}
//IMPL: FragmentConcept
typedef double output_type;
unsigned input_dim() const {return n;}
inline bool isZero() const {
for (unsigned i=0; i < (1<<n); i++){
if (a[i] != 0) return false;
}
return true; }
inline bool isConstant() const {
for (unsigned i=1; i < (1<<n); i++){
if (a[i] != a[0]) return false;
}
return true; }
inline bool isConstant(unsigned var) const {
unsigned mask = (1<<var)-1;
for (unsigned i=0; i < (1<<(n-1)); i++){
unsigned low_i = i & mask, high_i = i & ~mask;
unsigned idx0 = (high_i<<1)|low_i;
unsigned idx1 = (high_i<<1)|(1<<var)|low_i;
if (a[idx0] != a[idx1]) return false;
}
return true;
}
inline bool isFinite() const {
for (unsigned i=0; i < (1<<n); i++){
if ( !std::isfinite(a[i]) ) return false;
}
return true; }
//value if k-th variable is set to 0.
inline LinearN<n-1> at0(unsigned k=0) const {
LinearN<n-1> res;
unsigned mask = (1<<k)-1;
for (unsigned i=0; i < (1<<(n-1)); i++){
unsigned low_i = i & mask, high_i = i & ~mask;
unsigned idx = (high_i<<1)|low_i;
res[i] = a[idx];
}
return res;
}
//value if k-th variable is set to 1.
inline LinearN<n-1> at1(unsigned k=0) const {
LinearN<n-1> res;
for (unsigned i=0; i < (1<<(n-1)); i++){
unsigned mask = (1<<k)-1;
unsigned low_i = i & mask, high_i = i & ~mask;
unsigned idx = (high_i<<1)|(1<<k)|low_i;
res[i] = a[idx];
}
return res;
}
inline double atCorner(unsigned k) const {
assert( k < (1<<n) );
return a[k];
}
inline double atCorner(double t[]) const {
unsigned k=0;
for(unsigned i=0; i<n; i++){
if (t[i] == 1.) k = k | (1<<i);
else assert( t[i] == 0. );
}
return atCorner(k);
}
inline LinearN<n-1> partialEval(double t, unsigned var=0 ) const {
LinearN<n-1> res;
res = at0(var)*(1-t) + at1(var)*t;
return res;
}
//fixed and flags are used for recursion.
inline double valueAt(double t[], unsigned fixed=0, unsigned flags=0 ) const {
if (fixed == n) {
return a[flags];
}else{
double a0 = valueAt(t, fixed+1, flags);
double a1 = valueAt(t, fixed+1, flags|(1<<fixed));
return lerpppp( t[fixed], a0, a1 );
}
}
inline double operator()(double t[]) const { return valueAt(t); }
//defined in sbasisN.h
inline SBasisN<n> toSBasisN() const;
inline OptInterval bounds_exact() const {
double min=a[0], max=a[0];
for (unsigned i=1; i < (1<<n); i++){
if (a[i] < min) min = a[i];
if (a[i] > max) max = a[i];
}
return Interval(min, max);
}
inline OptInterval bounds_fast() const { return bounds_exact(); }
//inline OptInterval bounds_local(double u, double v) const { return Interval(valueAt(u), valueAt(v)); }
};
//LinearN<0> are doubles. Specialize them out.
template<>
class LinearN<0>{
public:
double d;
LinearN () {}
LinearN(double d) :d(d) {}
operator double() const { return d; }
double operator[](const int i) const {assert (i==0); return d;}
double& operator[](const int i) {assert (i==0); return d;}
typedef double output_type;
unsigned input_dim() const {return 0;}
inline bool isZero() const { return d==0; }
inline bool isConstant() const { return true; }
inline bool isFinite() const { return std::isfinite(d); }
};
//LinearN<1> are usual Linear. Allow conversion.
Linear toLinear(LinearN<1> f){
return Linear(f[0],f[1]);
}
//inline Linear reverse(Linear const &a) { return Linear(a[1], a[0]); }
//IMPL: AddableConcept
template<unsigned n>
inline LinearN<n> operator+(LinearN<n> const & a, LinearN<n> const & b) {
LinearN<n> res;
for (unsigned i=0; i < (1<<n); i++){
res[i] = a[i] + b[i];
}
return res;
}
template<unsigned n>
inline LinearN<n> operator-(LinearN<n> const & a, LinearN<n> const & b) {
LinearN<n> res;
for (unsigned i=0; i < (1<<n); i++){
res[i] = a[i] - b[i];
}
return res;
}
template<unsigned n>
inline LinearN<n>& operator+=(LinearN<n> & a, LinearN<n> const & b) {
for (unsigned i=0; i < (1<<n); i++){
a[i] += b[i];
}
return a;
}
template<unsigned n>
inline LinearN<n>& operator-=(LinearN<n> & a, LinearN<n> const & b) {
for (unsigned i=0; i < (1<<n); i++){
a[i] -= b[i];
}
return a;
}
//IMPL: OffsetableConcept
template<unsigned n>
inline LinearN<n> operator+(LinearN<n> const & a, double b) {
LinearN<n> res;
for (unsigned i=0; i < (1<<n); i++){
res[i] = a[i] + b;
}
return res;
}
template<unsigned n>
inline LinearN<n> operator-(LinearN<n> const & a, double b) {
LinearN<n> res;
for (unsigned i=0; i < (1<<n); i++){
res[i] = a[i] - b;
}
return res;
}
template<unsigned n>
inline LinearN<n>& operator+=(LinearN<n> & a, double b) {
for (unsigned i=0; i < (1<<n); i++){
a[i] += b;
}
return a;
}
template<unsigned n>
inline LinearN<n>& operator-=(LinearN<n> & a, double b) {
for (unsigned i=0; i < (1<<n); i++){
a[i] -= b;
}
return a;
}
//IMPL: boost::EqualityComparableConcept
template<unsigned n>
inline bool operator==(LinearN<n> const & a, LinearN<n> const & b) {
for (unsigned i=0; i < (1<<n); i++){
if (a[i] != b[i]) return false;
}
return true;
}
template<unsigned n>
inline bool operator!=(LinearN<n> const & a, LinearN<n> const & b) {
return !(a==b);
}
//IMPL: ScalableConcept
template<unsigned n>
inline LinearN<n> operator-(LinearN<n> const &a) {
LinearN<n> res;
for (unsigned i=0; i < (1<<n); i++){
res[i] = -a[i];
}
return res;
}
template<unsigned n>
inline LinearN<n> operator*(LinearN<n> const & a, double b) {
LinearN<n> res;
for (unsigned i=0; i < (1<<n); i++){
res[i] = a[i] * b;
}
return res;
}
template<unsigned n>
inline LinearN<n> operator/(LinearN<n> const & a, double b) {
LinearN<n> res;
for (unsigned i=0; i < (1<<n); i++){
res[i] = a[i] / b;
}
return res;
}
template<unsigned n>
inline LinearN<n> operator*=(LinearN<n> & a, double b) {
for (unsigned i=0; i < (1<<n); i++){
a[i] *= b;
}
return a;
}
template<unsigned n>
inline LinearN<n> operator/=(LinearN<n> & a, double b) {
for (unsigned i=0; i < (1<<n); i++){
a[i] /= b;
}
return a;
}
template<unsigned n>
void setToVariable(LinearN<n> &x, unsigned k){;
x = LinearN<n>(0.);
unsigned mask = 1<<k;
for (unsigned i=0; i < (1<<n); i++){
if ( i & mask ) x[i] = 1;
}
}
template<unsigned n>
inline std::ostream &operator<< (std::ostream &out_file, const LinearN<n> &bo) {
out_file << "{";
for (unsigned i=0; i < (1<<n); i++){
out_file << bo[i]<<(i == (1<<n)-1 ? "}" : ",");
}
return out_file;
}
}
#endif //SEEN_LINEAR_H
/*
Local Variables:
mode:c++
c-file-style:"stroustrup"
c-file-offsets:((innamespace . 0)(inline-open . 0)(case-label . +))
indent-tabs-mode:nil
fill-column:99
End:
*/
// vim: filetype=cpp:expandtab:shiftwidth=4:tabstop=8:softtabstop=4:fileencoding=utf-8:textwidth=99 :
|
