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#include <cln/number.h>
#include <cln/io.h>
#include <cln/integer.h>
#include <cln/float.h>
#include <cln/float_io.h>
#include <cln/real.h>
#include <cln/real_io.h>
#include <cln/complex.h>
#include <cln/complex_io.h>
#include <stdlib.h>
#include <string.h>
#include <cln/timing.h>
using namespace std; using namespace cln;
int main (int argc, char * argv[]) { int digits = 100; int repetitions = 1; while (argc >= 3) { if (!strcmp(argv[1],"-r")) { repetitions = atoi(argv[2]); argc -= 2; argv += 2; continue; } if (!strcmp(argv[1],"-n")) { digits = atoi(argv[2]); argc -= 2; argv += 2; continue; } break; } if (argc < 1) exit(1);
cerr << "Number of digits: " << digits << endl; cerr << "Number of repetitions (except for pi,euler,e): " << repetitions << endl;
float_format_t prec = float_format(digits); cl_F x1 = sqrt(cl_float(2,prec)); cl_F x2 = sqrt(cl_float(3,prec)); cl_F x3 = The(cl_F)(log(cl_float(2,prec)));
cerr << "multiplication" << endl; { cl_F r = x1*x2; { CL_TIMING; for (int rep = repetitions; rep > 0; rep--) { r = x1*x2; } } cout << r << endl << endl; }
cerr << "sqrt" << endl; { cl_F r = sqrt(x3); { CL_TIMING; for (int rep = repetitions; rep > 0; rep--) { r = sqrt(x3); } } cout << r << endl << endl; }
cerr << "pi" << endl; { cl_F r; { CL_TIMING; r = pi(prec); } cout << r << endl << endl; }
cerr << "eulerconst" << endl; { cl_F r; { CL_TIMING; r = eulerconst(prec); } cout << r << endl << endl; }
cerr << "e" << endl; { cl_F r; { CL_TIMING; r = exp1(prec); } cout << r << endl << endl; }
cerr << "exp" << endl; { cl_F r = exp(-x1); { CL_TIMING; for (int rep = repetitions; rep > 0; rep--) { r = exp(-x1); } } cout << r << endl << endl; }
cerr << "log" << endl; { cl_N r = log(x2); { CL_TIMING; for (int rep = repetitions; rep > 0; rep--) { r = log(x2); } } cout << r << endl << endl; }
cerr << "sin" << endl; { cl_R r = sin(5*x1); { CL_TIMING; for (int rep = repetitions; rep > 0; rep--) { r = sin(5*x1); } } cout << r << endl << endl; }
cerr << "cos" << endl; { cl_R r = cos(5*x1); { CL_TIMING; for (int rep = repetitions; rep > 0; rep--) { r = cos(5*x1); } } cout << r << endl << endl; }
cerr << "asin" << endl; { cl_N r = asin(x3); { CL_TIMING; for (int rep = repetitions; rep > 0; rep--) { r = asin(x3); } } cout << r << endl << endl; }
cerr << "acos" << endl; { cl_N r = acos(x3); { CL_TIMING; for (int rep = repetitions; rep > 0; rep--) { r = acos(x3); } } cout << r << endl << endl; }
cerr << "atan" << endl; { cl_F r = atan(x3); { CL_TIMING; for (int rep = repetitions; rep > 0; rep--) { r = atan(x3); } } cout << r << endl << endl; }
cerr << "sinh" << endl; { cl_F r = sinh(x2); { CL_TIMING; for (int rep = repetitions; rep > 0; rep--) { r = sinh(x2); } } cout << r << endl << endl; }
cerr << "cosh" << endl; { cl_F r = cosh(x2); { CL_TIMING; for (int rep = repetitions; rep > 0; rep--) { r = cosh(x2); } } cout << r << endl << endl; }
cerr << "asinh" << endl; { cl_N r = asinh(x3); { CL_TIMING; for (int rep = repetitions; rep > 0; rep--) { r = asinh(x3); } } cout << r << endl << endl; }
cerr << "acosh" << endl; { cl_N r = acosh(1+x3); { CL_TIMING; for (int rep = repetitions; rep > 0; rep--) { r = acosh(1+x3); } } cout << r << endl << endl; }
cerr << "atanh" << endl; { cl_N r = atanh(x3); { CL_TIMING; for (int rep = repetitions; rep > 0; rep--) { r = atanh(x3); } } cout << r << endl << endl; }
}
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