28{
33 typedef typename compositor_t::function function_t;
34
35 T x = T(0);
36
37 symbol_table_t symbol_table;
38
39 symbol_table.add_constants();
40 symbol_table.add_variable("x",x);
41
42 compositor_t compositor(symbol_table);
43
44
45 compositor.add(
46 function_t("is_prime_impl1")
47 .vars("x", "y")
48 .expression
49 (
50 " if (y == 1,true, "
51 " if (0 == (x % y),false, "
52 " is_prime_impl1(x,y - 1))) "
53 ));
54
55 compositor.add(
56 function_t("is_prime1")
57 .var("x")
58 .expression
59 (
60 " if (frac(x) != 0) "
61 " return [false]; "
62 " else if (x <= 0) "
63 " return [false]; "
64 " else "
65 " is_prime_impl1(x,min(x - 1,trunc(sqrt(x)) + 1)); "
66 ));
67
68
69 compositor.add(
70 function_t("is_prime_impl2")
71 .vars("x", "y")
72 .expression
73 (
74 " switch "
75 " { "
76 " case y == 1 : true; "
77 " case (x % y) == 0 : false; "
78 " default : is_prime_impl2(x,y - 1); "
79 " } "
80 ));
81
82 compositor.add(
83 function_t("is_prime2")
84 .var("x")
85 .expression
86 (
87 " switch "
88 " { "
89 " case x <= 0 : false; "
90 " case frac(x) != 0 : false; "
91 " default : is_prime_impl2(x,min(x - 1,trunc(sqrt(x)) + 1)); "
92 " } "
93 ));
94
95
96 compositor.add(
97 function_t("is_prime3")
98 .var("x")
99 .expression
100 (
101 " switch "
102 " { "
103 " case x <= 1 : return [false]; "
104 " case frac(x) != 0 : return [false]; "
105 " case x == 2 : return [true ]; "
106 " }; "
107 " "
108 " var prime_lut[27] := "
109 " { "
110 " 2, 3, 5, 7, 11, 13, 17, 19, 23, "
111 " 29, 31, 37, 41, 43, 47, 53, 59, 61, "
112 " 67, 71, 73, 79, 83, 89, 97, 101, 103 "
113 " }; "
114 " "
115 " var upper_bound := min(x - 1, trunc(sqrt(x)) + 1); "
116 " "
117 " for (var i := 0; i < prime_lut[]; i += 1) "
118 " { "
119 " if (prime_lut[i] >= upper_bound) "
120 " return [true]; "
121 " else if ((x % prime_lut[i]) == 0) "
122 " return [false]; "
123 " }; "
124 " "
125 " var lower_bound := prime_lut[prime_lut[] - 1] + 2; "
126 " "
127 " for (var i := lower_bound; i < upper_bound; i += 2) "
128 " { "
129 " if ((x % i) == 0) "
130 " { "
131 " return [false]; "
132 " } "
133 " }; "
134 " "
135 " return [true]; "
136 ));
137
138 std::string expression_str1 = "is_prime1(x)";
139 std::string expression_str2 = "is_prime2(x)";
140 std::string expression_str3 = "is_prime3(x)";
141
142 expression_t expression1;
143 expression_t expression2;
144 expression_t expression3;
145 expression1.register_symbol_table(symbol_table);
146 expression2.register_symbol_table(symbol_table);
147 expression3.register_symbol_table(symbol_table);
148
149 parser_t parser;
150
151 parser.compile(expression_str1, expression1);
152 parser.compile(expression_str2, expression2);
153 parser.compile(expression_str3, expression3);
154
155 for (std::size_t i = 0; i < 15000; ++i)
156 {
157 x = static_cast<T>(i);
158
159 const T result1 = expression1.value();
160 const T result2 = expression2.value();
161 const T result3 = expression3.value();
162
163 const bool results_concur = (result1 == result2) &&
164 (result1 == result3) ;
165
166 printf("%03d Result1: %c Result2: %c Result3: %c "
167 "Results Concur: %c\n",
168 static_cast<unsigned int>(i),
169 (result1 == T(1)) ? 'T' : 'F',
170 (result2 == T(1)) ? 'T' : 'F',
171 (result3 == T(1)) ? 'T' : 'F',
172 (results_concur) ? 'T' : 'F');
173 }
174}
