source: Sophya/trunk/SophyaProg/Tests/tfft.cc@ 1446

Last change on this file since 1446 was 1408, checked in by ansari, 25 years ago

Redeclaration de int i ds tfft.cc - reza 16/2/2001
File size: 5.7 KB
Line 
1#include "machdefs.h"
2
3#include <math.h>
4#include <iostream.h>
5
6#include "nbrandom.h"
7#include "fftpserver.h"
8#include "fftmserver.h"
9#include "fftwserver.h"
10#include "ntoolsinit.h"
11
12#include "timing.h"
13
14
15static bool inp_typ_random = false ; // true -> random input
16
17template <class T>
18inline T module(complex<T> c)
19{
20 return (sqrt(c.real()*c.real()+c.imag()*c.imag()));
21}
22
23// Max Matrix print elts
24static int nprt = 2;
25static int nprtfc = 8;
26
27template <class T>
28void TestFFTPack(T seuil, int num)
29{
30 int i;
31 T fact = 1./num;
32
33 TVector< complex<T> > inc(num), bkc(num), difc(num);
34 TVector< T > in(num), ino(num), bk(num),dif(num);
35 TVector< complex<T> > outc(num);
36
37 cout << " DBG/1 outc " << outc.NElts() << endl;
38 outc.ReSize(32);
39 cout << " DBG/2 outc " << outc.NElts() << endl;
40 outc.ReSize(10);
41 cout << " DBG/3 outc " << outc.NElts() << endl;
42 outc.ReSize(48);
43 cout << " DBG/4 outc " << outc.NElts() << endl;
44
45 if (inp_typ_random)
46 for (i=0; i<num ; i++){
47 ino[i] = in[i] = GauRnd(0., 1.);
48 inc[i] = complex<T> (in[i], 0.);
49 }
50 else for (i=0; i<num ; i++){
51 ino[i] = in[i] = 0.5 + cos(2*M_PI*(double)i/(double)num)
52 + 2*sin(4*M_PI*(double)i/(double)num);
53 inc[i] = complex<T> (in[i], 0.);
54 }
55
56
57 cout << "Input / L = " << num << in;
58 cout << endl;
59
60 cout << " >>>> Testing FFTPackServer " << endl;
61 FFTPackServer fftp;
62 cout << " Testing FFTPackServer " << endl;
63 fftp.fftf(in.NElts(), in.Data());
64 // in /= (num/2.);
65 cout << " fftp.fftf(in.NElts(), in.Data()) FORWARD: " << in << endl;
66 cout << endl;
67 fftp.fftb(in.NElts(), in.Data());
68 cout << " fftp.fftb(in.NElts(), in.Data()) BACKWARD: " << in <<endl;
69 cout << endl;
70 dif = ino-in;
71 cout << " dif , NElts= " << dif.NElts() << dif << endl;
72
73 int ndiff = 0;
74 T maxdif=0., vdif;
75 for(i=0; i<num; i++) {
76 vdif = fabs(dif(i));
77 if (vdif > seuil) ndiff++;
78 if (vdif > maxdif) maxdif = vdif;
79 }
80 cout << " Difference, Seuil= " << seuil << " NDiff= " << ndiff
81 << " MaxDiff= " << maxdif << endl;
82
83}
84
85template <class T>
86void TestFFTS(T seuil, FFTServerInterface & ffts, int num)
87{
88
89 cout <<" ===> TestFFTS " << ffts.getInfo() << " ArrSz= " << num << endl;
90 int i;
91
92 T fact = 1.;
93
94 TVector< complex<T> > inc(num), bkc(num), difc(num);
95 TVector< T > in(num), ino(num), bk(num),dif(num);
96 TVector< complex<T> > outc(num);
97
98 for (i=0; i<num ; i++){
99 ino[i] = in[i] = 0.5 + cos(2*M_PI*(double)i/(double)num)
100 + 2*sin(4*M_PI*(double)i/(double)num);
101 inc[i] = complex<T> (in[i], 0.);
102 }
103
104
105 cout << " Testing FFTServer " << ffts.getInfo() << endl;
106
107 cout << "Input / L = " << num << in << endl;
108 cout << endl;
109
110 int ndiff = 0;
111
112 cout << "\n ---- Testing FFT(T, complex<T>) ---- " << endl;
113 ffts.FFTForward(in, outc);
114 cout << " FourierCoefs , NElts= " << outc.NElts() << outc << endl;
115
116 ffts.FFTBackward(outc, bk);
117 cout << " Backward , NElts= " << bk.NElts() << bk << endl;
118
119 dif = bk*fact - in;
120 cout << " Difference , NElts= " << dif.NElts() << dif << endl;
121
122 ndiff = 0;
123 T maxdif=0., vdif;
124 for(i=0; i<num; i++) {
125 vdif = fabs(dif(i));
126 if (vdif > seuil) ndiff++;
127 if (vdif > maxdif) maxdif = vdif;
128 }
129 cout << " Difference, Seuil= " << seuil << " NDiff= " << ndiff
130 << " MaxDiff= " << maxdif << endl;
131
132 cout << "\n ---- Testing FFT(complex<T>, complex<T>) ---- " << endl;
133 ffts.FFTForward(inc, outc);
134 cout << " FourierCoef , NElts= " << outc.NElts() << outc << endl;
135
136 ffts.FFTBackward(outc, bkc);
137 cout << " Backward , NElts= " << bkc.NElts() << bkc << endl;
138
139 difc = bkc*complex<T>(fact,0.) - inc;
140 cout << " Difference , NElts= " << difc.NElts() << difc << endl;
141
142 ndiff = 0;
143 maxdif=0., vdif;
144 for(i=0; i<num; i++) {
145 vdif = fabs(module(difc(i)));
146 if (vdif > seuil) ndiff++;
147 if (vdif > maxdif) maxdif = vdif;
148 }
149 cout << " Difference, Seuil= " << seuil << " NDiff= " << ndiff
150 << " MaxDiff= " << maxdif << endl;
151}
152
153
154
155
156
157int main(int narg, char* arg[])
158{
159
160 SophyaInit();
161 InitTim(); // Initializing the CPU timer
162
163 if (narg < 4) {
164 cout << "tfft/ args error - \n Usage tfft size px/Px/Mx/Wx f/d [NPrt=50 PrtLev=0] \n"
165 << " p=FFTPackTest P=FFTPack, M=FFTMayer, W= FFTWServer"
166 << " x=0 -> Random input - f=float, d=double " << endl;
167 exit(0);
168 }
169
170 FFTPackServer fftp;
171 FFTMayerServer fftm;
172
173 FFTWServer fftw;
174
175 inp_typ_random = false;
176 if (arg[2][1] == '0') inp_typ_random = true;
177
178 int sz = atoi(arg[1]);
179 int nprt = 50;
180 int prtlev = 0;
181 if (narg > 4) nprt = atoi(arg[4]);
182 if (narg > 5) prtlev = atoi(arg[5]);
183 BaseArray::SetMaxPrint(nprt, prtlev);
184
185 if (sz < 2) sz = 2;
186 FFTServerInterface * ffts;
187 if (*arg[2] == 'M') ffts = fftm.Clone();
188 else if (*arg[2] == 'W') ffts = fftw.Clone();
189 else ffts = fftp.Clone();
190
191 float fs = 1.e-4;
192 double ds = 1.e-6;
193
194 try {
195 if (*arg[3] == 'd') {
196 cout << "\n ========================================== \n"
197 << " ------ Testing FFTServer for double ----- \n"
198 << " ============================================ " << endl;
199 if (*arg[2] == 'p') TestFFTPack(ds, sz);
200 else TestFFTS(ds, *ffts, sz);
201 }
202 else {
203 cout << "\n ========================================= \n"
204 << " ------ Testing FFTServer for float ----- \n"
205 << " =========================================== " << endl;
206 if (*arg[2] == 'p') TestFFTPack(fs, sz);
207 else TestFFTS(fs, *ffts, sz);
208 }
209 }
210 catch(PThrowable exc ) {
211 cerr << "TestFFT-main() , Catched exception: \n" << exc.Msg() << endl;
212 }
213 catch(std::exception ex) {
214 cerr << "TestFFT-main() , Catched exception ! " << (string)(ex.what()) << endl;
215 }
216
217 /*
218 catch(...) {
219 cerr << "TestFFT-main() , Catched ... exception ! " << endl;
220 }
221 */
222 PrtTim("End of tfft ");
223 delete ffts;
224}
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