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Revision 2069 by tim, Tue Mar 1 20:10:14 2005 UTC vs.
Revision 2577 by gezelter, Wed Feb 1 17:26:43 2006 UTC

# Line 1 | Line 1
1 < /*
1 > /*
2   * Copyright (c) 2005 The University of Notre Dame. All Rights Reserved.
3   *
4   * The University of Notre Dame grants you ("Licensee") a
# Line 56 | Line 56 | template<typename ElemType> ElemType pow(ElemType x, i
56  
57   namespace oopse {
58  
59 < template<typename ElemType> ElemType pow(ElemType x, int N) {
59 >  template<typename ElemType> ElemType pow(ElemType x, int N) {
60      ElemType result(1);
61  
62      for (int i = 0; i < N; ++i) {
63 <        result *= x;
63 >      result *= x;
64      }
65  
66      return result;
67 < }
67 >  }
68  
69 < /**
70 < * @class Polynomial Polynomial.hpp "math/Polynomial.hpp"
71 < * A generic Polynomial class
72 < */
73 < template<typename ElemType>
74 < class Polynomial {
69 >  /**
70 >   * @class Polynomial Polynomial.hpp "math/Polynomial.hpp"
71 >   * A generic Polynomial class
72 >   */
73 >  template<typename ElemType>
74 >  class Polynomial {
75  
76 <    public:
77 <        
78 <        typedef int ExponentType;
79 <        typedef ElemType CoefficientType;
80 <        typedef std::map<ExponentType, CoefficientType> PolynomialPairMap;
81 <        typedef typename PolynomialPairMap::iterator iterator;
82 <        typedef typename PolynomialPairMap::const_iterator const_iterator;
83 <        /**
84 <         * Calculates the value of this Polynomial evaluated at the given x value.
85 <         * @return The value of this Polynomial evaluates at the given x value
86 <         * @param x the value of the independent variable for this Polynomial function
87 <         */
88 <        ElemType evaluate(const ElemType& x) {
89 <            ElemType result = ElemType();
90 <            ExponentType exponent;
91 <            CoefficientType coefficient;
76 >  public:
77 >    typedef Polynomial<ElemType> PolynomialType;    
78 >    typedef int ExponentType;
79 >    typedef ElemType CoefficientType;
80 >    typedef std::map<ExponentType, CoefficientType> PolynomialPairMap;
81 >    typedef typename PolynomialPairMap::iterator iterator;
82 >    typedef typename PolynomialPairMap::const_iterator const_iterator;
83 >
84 >    Polynomial() {}
85 >    Polynomial(ElemType v) {setCoefficient(0, v);}
86 >    /**
87 >     * Calculates the value of this Polynomial evaluated at the given x value.
88 >     * @return The value of this Polynomial evaluates at the given x value
89 >     * @param x the value of the independent variable for this Polynomial function
90 >     */
91 >    ElemType evaluate(const ElemType& x) {
92 >      ElemType result = ElemType();
93 >      ExponentType exponent;
94 >      CoefficientType coefficient;
95              
96 <            for (iterator i = polyPairMap_.begin(); i != polyPairMap_.end(); ++i) {
97 <                exponent = i->first;
98 <                coefficient = i->second;
99 <                result  += pow(x, exponent) * coefficient;
100 <            }
96 >      for (iterator i = polyPairMap_.begin(); i != polyPairMap_.end(); ++i) {
97 >        exponent = i->first;
98 >        coefficient = i->second;
99 >        result  += pow(x, exponent) * coefficient;
100 >      }
101  
102 <            return result;
103 <        }
102 >      return result;
103 >    }
104  
105 <        /**
106 <         * Returns the first derivative of this polynomial.
107 <         * @return the first derivative of this polynomial
108 <         * @param x
109 <         */
110 <        ElemType evaluateDerivative(const ElemType& x) {
111 <            ElemType result = ElemType();
112 <            ExponentType exponent;
113 <            CoefficientType coefficient;
105 >    /**
106 >     * Returns the first derivative of this polynomial.
107 >     * @return the first derivative of this polynomial
108 >     * @param x
109 >     */
110 >    ElemType evaluateDerivative(const ElemType& x) {
111 >      ElemType result = ElemType();
112 >      ExponentType exponent;
113 >      CoefficientType coefficient;
114              
115 <            for (iterator i = polyPairMap_.begin(); i != polyPairMap_.end(); ++i) {
116 <                exponent = i->first;
117 <                coefficient = i->second;
118 <                result  += pow(x, exponent - 1) * coefficient * exponent;
119 <            }
115 >      for (iterator i = polyPairMap_.begin(); i != polyPairMap_.end(); ++i) {
116 >        exponent = i->first;
117 >        coefficient = i->second;
118 >        result  += pow(x, exponent - 1) * coefficient * exponent;
119 >      }
120  
121 <            return result;
122 <        }
121 >      return result;
122 >    }
123  
124 <        /**
125 <         * Set the coefficent of the specified exponent, if the coefficient is already there, it
126 <         * will be overwritten.
127 <         * @param exponent exponent of a term in this Polynomial
128 <         * @param coefficient multiplier of a term in this Polynomial
129 <         */
124 >    /**
125 >     * Set the coefficent of the specified exponent, if the coefficient is already there, it
126 >     * will be overwritten.
127 >     * @param exponent exponent of a term in this Polynomial
128 >     * @param coefficient multiplier of a term in this Polynomial
129 >     */
130          
131 <        void setCoefficient(int exponent, const ElemType& coefficient) {
132 <            polyPairMap_.insert(typename PolynomialPairMap::value_type(exponent, coefficient));
133 <        }
131 >    void setCoefficient(int exponent, const ElemType& coefficient) {
132 >      polyPairMap_.insert(typename PolynomialPairMap::value_type(exponent, coefficient));
133 >    }
134  
135 <        /**
136 <         * Set the coefficent of the specified exponent. If the coefficient is already there,  just add the
137 <         * new coefficient to the old one, otherwise,  just call setCoefficent
138 <         * @param exponent exponent of a term in this Polynomial
139 <         * @param coefficient multiplier of a term in this Polynomial
140 <         */
135 >    /**
136 >     * Set the coefficent of the specified exponent. If the coefficient is already there,  just add the
137 >     * new coefficient to the old one, otherwise,  just call setCoefficent
138 >     * @param exponent exponent of a term in this Polynomial
139 >     * @param coefficient multiplier of a term in this Polynomial
140 >     */
141          
142 <        void addCoefficient(int exponent, const ElemType& coefficient) {
143 <            iterator i = polyPairMap_.find(exponent);
142 >    void addCoefficient(int exponent, const ElemType& coefficient) {
143 >      iterator i = polyPairMap_.find(exponent);
144  
145 <            if (i != end()) {
146 <                i->second += coefficient;
147 <            } else {
148 <                setCoefficient(exponent, coefficient);
149 <            }
150 <        }
145 >      if (i != end()) {
146 >        i->second += coefficient;
147 >      } else {
148 >        setCoefficient(exponent, coefficient);
149 >      }
150 >    }
151  
152  
153 <        /**
154 <         * Returns the coefficient associated with the given power for this Polynomial.
155 <         * @return the coefficient associated with the given power for this Polynomial
156 <         * @exponent exponent of any term in this Polynomial
157 <         */
158 <        ElemType getCoefficient(ExponentType exponent) {
159 <            iterator i = polyPairMap_.find(exponent);
153 >    /**
154 >     * Returns the coefficient associated with the given power for this Polynomial.
155 >     * @return the coefficient associated with the given power for this Polynomial
156 >     * @exponent exponent of any term in this Polynomial
157 >     */
158 >    ElemType getCoefficient(ExponentType exponent) {
159 >      iterator i = polyPairMap_.find(exponent);
160  
161 <            if (i != end()) {
162 <                return i->second;
163 <            } else {
164 <                return ElemType(0);
165 <            }
166 <        }
161 >      if (i != end()) {
162 >        return i->second;
163 >      } else {
164 >        return ElemType(0);
165 >      }
166 >    }
167  
168 <        iterator begin() {
169 <            return polyPairMap_.begin();
170 <        }
168 >    iterator begin() {
169 >      return polyPairMap_.begin();
170 >    }
171  
172 <        const_iterator begin() const{
173 <            return polyPairMap_.begin();
174 <        }
175 <        
176 <        iterator end() {
177 <            return polyPairMap_.end();
178 <        }
172 >    const_iterator begin() const{
173 >      return polyPairMap_.begin();
174 >    }
175 >        
176 >    iterator end() {
177 >      return polyPairMap_.end();
178 >    }
179  
180 <        const_iterator end() const{
181 <            return polyPairMap_.end();
182 <        }
180 >    const_iterator end() const{
181 >      return polyPairMap_.end();
182 >    }
183  
184 <        iterator find(ExponentType exponent) {
185 <            return polyPairMap_.find(exponent);
186 <        }
184 >    iterator find(ExponentType exponent) {
185 >      return polyPairMap_.find(exponent);
186 >    }
187  
188 <        size_t size() {
189 <            return polyPairMap_.size();
188 >    size_t size() {
189 >      return polyPairMap_.size();
190 >    }
191 >
192 >    PolynomialType& operator += (const PolynomialType& p) {
193 >        typename Polynomial<ElemType>::const_iterator i;
194 >
195 >        for (i =  p.begin(); i  != p.end(); ++i) {
196 >          this->addCoefficient(i->first, i->second);
197          }
198 +
199 +        return *this;        
200 +    }
201 +
202 +    PolynomialType& operator -= (const PolynomialType& p) {
203 +        typename Polynomial<ElemType>::const_iterator i;
204 +        for (i =  p.begin(); i  != p.end(); ++i) {
205 +          this->addCoefficient(i->first, -i->second);
206 +        }        
207 +        return *this;
208 +    }
209 +
210 +    PolynomialType& operator *= (const PolynomialType& p) {
211 +    typename Polynomial<ElemType>::const_iterator i;
212 +    typename Polynomial<ElemType>::const_iterator j;
213 +    
214 +    for (i = this->begin(); i !=this->end(); ++i) {
215 +      for (j = p.begin(); j !=p.end(); ++j) {
216 +        this->addCoefficient( i->first + j->first, i->second * j->second);
217 +      }
218 +    }
219 +
220 +    return *this;
221 +    }
222 +
223 +  
224 +  private:
225          
226 <    private:
227 <        
191 <        PolynomialPairMap polyPairMap_;
192 < };
226 >    PolynomialPairMap polyPairMap_;
227 >  };
228  
229  
230 < /**
231 < * Generates and returns the product of two given Polynomials.
232 < * @return A Polynomial containing the product of the two given Polynomial parameters
233 < */
234 < template<typename ElemType>
235 < Polynomial<ElemType> operator *(const Polynomial<ElemType>& p1, const Polynomial<ElemType>& p2) {
230 >  /**
231 >   * Generates and returns the product of two given Polynomials.
232 >   * @return A Polynomial containing the product of the two given Polynomial parameters
233 >   */
234 >  template<typename ElemType>
235 >  Polynomial<ElemType> operator *(const Polynomial<ElemType>& p1, const Polynomial<ElemType>& p2) {
236      typename Polynomial<ElemType>::const_iterator i;
237      typename Polynomial<ElemType>::const_iterator j;
238      Polynomial<ElemType> p;
239      
240      for (i = p1.begin(); i !=p1.end(); ++i) {
241 <        for (j = p2.begin(); j !=p2.end(); ++j) {
242 <            p.addCoefficient( i->first + j->first, i->second * j->second);
243 <        }
241 >      for (j = p2.begin(); j !=p2.end(); ++j) {
242 >        p.addCoefficient( i->first + j->first, i->second * j->second);
243 >      }
244      }
245  
246      return p;
247 < }
247 >  }
248  
249 < /**
250 < * Generates and returns the sum of two given Polynomials.
251 < * @param p1 the first polynomial
252 < * @param p2 the second polynomial
253 < */
254 < template<typename ElemType>
255 < Polynomial<ElemType> operator +(const Polynomial<ElemType>& p1, const Polynomial<ElemType>& p2) {
249 >  template<typename ElemType>
250 >  Polynomial<ElemType> operator *(const Polynomial<ElemType>& p, const ElemType v) {
251 >    typename Polynomial<ElemType>::const_iterator i;
252 >    Polynomial<ElemType> result;
253 >    
254 >    for (i = p.begin(); i !=p.end(); ++i) {
255 >        result.addCoefficient( i->first , i->second * v);
256 >    }
257 >
258 >    return result;
259 >  }
260 >
261 >  template<typename ElemType>
262 >  Polynomial<ElemType> operator *( const ElemType v, const Polynomial<ElemType>& p) {
263 >    typename Polynomial<ElemType>::const_iterator i;
264 >    Polynomial<ElemType> result;
265 >    
266 >    for (i = p.begin(); i !=p.end(); ++i) {
267 >        result.addCoefficient( i->first , i->second * v);
268 >    }
269 >
270 >    return result;
271 >  }
272 >  
273 >  /**
274 >   * Generates and returns the sum of two given Polynomials.
275 >   * @param p1 the first polynomial
276 >   * @param p2 the second polynomial
277 >   */
278 >  template<typename ElemType>
279 >  Polynomial<ElemType> operator +(const Polynomial<ElemType>& p1, const Polynomial<ElemType>& p2) {
280      Polynomial<ElemType> p(p1);
281  
282      typename Polynomial<ElemType>::const_iterator i;
283  
284      for (i =  p2.begin(); i  != p2.end(); ++i) {
285 <        p.addCoefficient(i->first, i->second);
285 >      p.addCoefficient(i->first, i->second);
286      }
287  
288      return p;
289  
290 < }
290 >  }
291  
292 < /**
293 < * Generates and returns the difference of two given Polynomials.
294 < * @return
295 < * @param p1 the first polynomial
296 < * @param p2 the second polynomial
297 < */
298 < template<typename ElemType>
299 < Polynomial<ElemType> operator -(const Polynomial<ElemType>& p1, const Polynomial<ElemType>& p2) {
292 >  /**
293 >   * Generates and returns the difference of two given Polynomials.
294 >   * @return
295 >   * @param p1 the first polynomial
296 >   * @param p2 the second polynomial
297 >   */
298 >  template<typename ElemType>
299 >  Polynomial<ElemType> operator -(const Polynomial<ElemType>& p1, const Polynomial<ElemType>& p2) {
300      Polynomial<ElemType> p(p1);
301  
302      typename Polynomial<ElemType>::const_iterator i;
303  
304      for (i =  p2.begin(); i  != p2.end(); ++i) {
305 <        p.addCoefficient(i->first, -i->second);
305 >      p.addCoefficient(i->first, -i->second);
306      }
307  
308      return p;
309  
310 < }
310 >  }
311  
312 < /**
313 < * Tests if two polynomial have the same exponents
314 < * @return true if these all of the exponents in these Polynomial are identical
315 < * @param p1 the first polynomial
316 < * @param p2 the second polynomial
317 < * @note this function does not compare the coefficient
318 < */
319 < template<typename ElemType>
320 < bool equal(const Polynomial<ElemType>& p1, const Polynomial<ElemType>& p2) {
312 >  /**
313 >   * Tests if two polynomial have the same exponents
314 >   * @return true if these all of the exponents in these Polynomial are identical
315 >   * @param p1 the first polynomial
316 >   * @param p2 the second polynomial
317 >   * @note this function does not compare the coefficient
318 >   */
319 >  template<typename ElemType>
320 >  bool equal(const Polynomial<ElemType>& p1, const Polynomial<ElemType>& p2) {
321  
322      typename Polynomial<ElemType>::const_iterator i;
323      typename Polynomial<ElemType>::const_iterator j;
324  
325      if (p1.size() != p2.size() ) {
326 <        return false;
326 >      return false;
327      }
328      
329      for (i =  p1.begin(), j = p2.begin(); i  != p1.end() && j != p2.end(); ++i, ++j) {
330 <        if (i->first != j->first) {
331 <            return false;
332 <        }
330 >      if (i->first != j->first) {
331 >        return false;
332 >      }
333      }
334  
335      return true;
336 < }
336 >  }
337  
338 < typedef Polynomial<double> DoublePolynomial;
338 >  typedef Polynomial<double> DoublePolynomial;
339  
340   } //end namespace oopse
341   #endif //MATH_POLYNOMIAL_HPP

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