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SimplifySum.h
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1 #ifndef PhysicsTools_Utilities_SimplifySum_h
2 #define PhysicsTools_Utilities_SimplifySum_h
3 
10 #include <type_traits>
11 
13 
14 namespace funct {
15 
16  // A + ( B + C ) => ( A + B ) + C
17  SUM_RULE(TYPT3, A, SUM_S(B, C), SUM(SUM(A, B), C), (_1 + _2._1) + _2._2);
18 
19  // ( A + B ) + ( C + D ) => ( ( A + B ) + C ) + D
20  SUM_RULE(TYPT4, SUM_S(A, B), SUM_S(C, D), SUM(SUM(SUM(A, B), C), D), (_1 + _2._1) + _2._2);
21 
22  // n + A = A + n
23  SUM_RULE(TYPN1T1, NUM(n), A, SUM(A, NUM(n)), _2 + _1);
24 
25  // n + ( A + B )= ( A + B ) + n
26  SUM_RULE(TYPN1T2, NUM(n), SUM_S(A, B), SUM(SUM_S(A, B), NUM(n)), _2 + _1);
27 
28  // A + 0 = A
29  SUM_RULE(TYPT1, A, NUM(0), A, _1);
30 
31  // 0 + 0 = 0
32  SUM_RULE(TYP0, NUM(0), NUM(0), NUM(0), num<0>());
33 
34  // ( A * B ) + 0 = ( A * B )
35  SUM_RULE(TYPT2, PROD_S(A, B), NUM(0), PROD_S(A, B), _1);
36 
37  // 0 + ( A * B ) = ( A * B )
38  SUM_RULE(TYPT2, NUM(0), PROD_S(A, B), PROD_S(A, B), _2);
39 
40  // 0 - ( A * B ) = - ( A * B )
42 
43  // ( A + B ) + 0 = ( A + B )
44  SUM_RULE(TYPT2, SUM_S(A, B), NUM(0), SUM_S(A, B), _1);
45 
46  // 0 + ( A + B ) = ( A + B )
47  SUM_RULE(TYPT2, NUM(0), SUM_S(A, B), SUM_S(A, B), _2);
48 
49  // A - ( -B ) = A + B
50  DIFF_RULE(TYPT2, A, MINUS_S(B), SUM(A, B), _1 + _2._);
51 
52  // n * A + m * A => ( n + m ) * A
55  typedef PROD(NUM(n), A) arg1;
56  typedef PROD(NUM(m), A) arg2;
57  typedef SUM_S(arg1, arg2) type;
58  COMBINE(arg1, arg2, type(_1, _2));
59  };
60 
61  TEMPL(N2T1)
63  typedef PROD(NUM(n + m), A) type;
64  typedef DecomposeProduct<PROD(NUM(n), A), A> Dec;
65  COMBINE(PROD(NUM(n), A), PROD(NUM(m), A), num<n + m>() * Dec::get(_1));
66  };
67 
68  TEMPL(T1)
69  struct ParametricSimplifiedSum<1, 1, A, true> {
71  COMBINE(A, A, type(_1, _2));
72  };
73 
74  TEMPL(T1)
75  struct ParametricSimplifiedSum<1, 1, A, false> {
76  typedef PROD(NUM(2), A) type;
77  COMBINE(A, A, num<2>() * _1);
78  };
79 
80  TEMPL(N2T1)
81  struct Sum<PROD_S(NUM(n), A), PROD_S(NUM(m), A)> : public ParametricSimplifiedSum<n, m, A> {};
82 
83  TEMPL(N1T1)
84  struct Sum<A, PROD_S(NUM(n), A)> : public ParametricSimplifiedSum<1, n, A> {};
85 
86  TEMPL(N1T1)
87  struct Sum<PROD_S(NUM(n), A), A> : public ParametricSimplifiedSum<n, 1, A> {};
88 
89  TEMPL(T1)
90  struct Sum<A, A> : public ParametricSimplifiedSum<1, 1, A> {};
91 
92  TEMPL(T1)
93  struct Sum<MINUS_S(A), MINUS_S(A)> : public ParametricSimplifiedSum<1, 1, MINUS_S(A)> {};
94 
95  TEMPL(T2)
96  struct Sum<MINUS_S(PROD_S(A, B)), MINUS_S(PROD_S(A, B))>
97  : public ParametricSimplifiedSum<1, 1, MINUS_S(PROD_S(A, B))> {};
98 
99  TEMPL(N1)
100  struct Sum<NUM(n), NUM(n)> : public ParametricSimplifiedSum<1, 1, NUM(n)> {};
101 
102  TEMPL(T2)
103  struct Sum<PROD_S(A, B), PROD_S(A, B)> : public ParametricSimplifiedSum<1, 1, PROD_S(A, B)> {};
104 
105  TEMPL(N1T1)
106  struct Sum<PROD_S(NUM(n), A), PROD_S(NUM(n), A)> : public ParametricSimplifiedSum<1, 1, PROD_S(NUM(n), A)> {};
107 
108  // simplify f + g + h regardless of the order
109  template <typename Prod, bool simplify = Prod::value>
110  struct AuxSum {
111  typedef SUM(typename Prod::AB, typename Prod::C) type;
112  COMBINE(typename Prod::AB, typename Prod::C, _1 + _2);
113  };
114 
115  template <typename Prod>
116  struct AuxSum<Prod, false> {
117  typedef SUM_S(typename Prod::AB, typename Prod::C) type;
118  COMBINE(typename Prod::AB, typename Prod::C, type(_1, _2));
119  };
120 
121  template <typename F, typename G, typename H>
122  struct SimplSumOrd {
123  struct prod0 {
124  typedef F A;
125  typedef G B;
126  typedef H C;
127  typedef SUM_S(A, B) AB;
128  inline static const A& a(const F& f, const G& g, const H& h) { return f; }
129  inline static const B& b(const F& f, const G& g, const H& h) { return g; }
130  inline static const C& c(const F& f, const G& g, const H& h) { return h; }
131  enum { value = false };
132  };
133  struct prod1 {
134  typedef F A;
135  typedef H B;
136  typedef G C;
137  typedef SUM_S(A, B) base;
138  typedef SUM(A, B) AB;
139  inline static const A& a(const F& f, const G& g, const H& h) { return f; }
140  inline static const B& b(const F& f, const G& g, const H& h) { return h; }
141  inline static const C& c(const F& f, const G& g, const H& h) { return g; }
143  };
144  struct prod2 {
145  typedef G A;
146  typedef H B;
147  typedef F C;
148  typedef SUM_S(A, B) base;
149  typedef SUM(A, B) AB;
150  inline static const A& a(const F& f, const G& g, const H& h) { return g; }
151  inline static const B& b(const F& f, const G& g, const H& h) { return h; }
152  inline static const C& c(const F& f, const G& g, const H& h) { return f; }
154  };
155 
156  typedef
159  typedef typename AuxSum<prod>::type type;
160  inline static type combine(const SUM_S(F, G) & fg, const H& h) {
161  const F& f = fg._1;
162  const G& g = fg._2;
163  const typename prod::A& a = prod::a(f, g, h);
164  const typename prod::B& b = prod::b(f, g, h);
165  const typename prod::C& c = prod::c(f, g, h);
166  return AuxSum<prod>::combine(a + b, c);
167  }
168  };
169 
170  TEMPL(T3)
171  struct Sum<SUM_S(A, B), C> : public SimplSumOrd<A, B, C> {};
172 
173  TEMPL(T4)
174  struct Sum<SUM_S(A, B), PROD_S(C, D)> : public SimplSumOrd<A, B, PROD_S(C, D)> {};
175 
176 } // namespace funct
177 
179 
180 #endif
class-composition.H
H
Definition: class-composition.py:31
funct::AuxSum::combine
static type combine(const typename Prod::AB &_1, const typename Prod::C &_2)
Definition: SimplifySum.h:112
funct::DecomposeProduct
Definition: DecomposeProduct.h:8
SUM
#define SUM(A, B)
Definition: Simplify_begin.h:52
funct::SimplSumOrd::type
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Definition: SimplifySum.h:159
Product.h
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#define TYPN1T1
Definition: Simplify_begin.h:16
TYP0
#define TYP0
Definition: Simplify_begin.h:4
funct::false
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Definition: Factorize.h:29
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Definition: dqmiodumpmetadata.py:28
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Definition: SimplifySum.h:152
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Definition: SimplifySum.h:125
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Definition: SimplifySum.h:134
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Definition: SimplifySum.h:130
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