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Diffstat (limited to 'src/signalProcessing/fft/testMatFft.c')
| -rw-r--r-- | src/signalProcessing/fft/testMatFft.c | 293 |
1 files changed, 0 insertions, 293 deletions
diff --git a/src/signalProcessing/fft/testMatFft.c b/src/signalProcessing/fft/testMatFft.c deleted file mode 100644 index 38acff5f..00000000 --- a/src/signalProcessing/fft/testMatFft.c +++ /dev/null @@ -1,293 +0,0 @@ - -/* - * Scilab ( http://www.scilab.org/ ) - This file is part of Scilab - * Copyright (C) 2008-2008 - INRIA - Allan SIMON - * - * This file must be used under the terms of the CeCILL. - * This source file is licensed as described in the file COPYING, which - * you should have received as part of this distribution. The terms - * are also available at - * http://www.cecill.info/licences/Licence_CeCILL_V2-en.txt - * - */ -#include <malloc.h> -#include <assert.h> -#include <stdio.h> -#include <math.h> -#include "fft.h" - -#define test1 {0.2113249000000000099586,0.3303270999999999846253,0.8497451999999999783242,0.0683740000000000042180,\ - 0.7560438999999999909463,0.6653810999999999475918,0.6857309999999999794440,0.5608486000000000304411,\ - 0.0002211000000000000075,0.6283917999999999448590,0.8782164999999999555058,0.6623569000000000261963} - -#define test2 {0.2113249000000000099586,0.6857309999999999794440,\ - 0.3303270999999999846253,0.5608486000000000304411,\ - 0.8497451999999999783242,0.0002211000000000000075,\ - 0.0683740000000000042180,0.6283917999999999448590,\ - 0.7560438999999999909463,0.8782164999999999555058,\ - 0.6653810999999999475918,0.6623569000000000261963} - -#define test3 {0.2113249000000000099586,0.7560438999999999909463,0.0002211000000000000075,\ - 0.3303270999999999846253,0.6653810999999999475918,0.6283917999999999448590,\ - 0.8497451999999999783242,0.6857309999999999794440,0.8782164999999999555058,\ - 0.0683740000000000042180,0.5608486000000000304411,0.6623569000000000261963} - -#define test4 {0.2113249000000000099586,0.0683740000000000042180,0.6857309999999999794440,0.6283917999999999448590,\ - 0.3303270999999999846253,0.7560438999999999909463,0.5608486000000000304411,0.8782164999999999555058,\ - 0.8497451999999999783242,0.6653810999999999475918,0.0002211000000000000075,0.6623569000000000261963} - -#define test6 {0.2113249000000000099586,0.8497451999999999783242,0.7560438999999999909463,0.6857309999999999794440,0.0002211000000000000075,0.8782164999999999555058,\ - 0.3303270999999999846253,0.0683740000000000042180,0.6653810999999999475918,0.5608486000000000304411,0.6283917999999999448590,0.6623569000000000261963} - -#define test9 {1,2,3,4,5,6,7,8,9} - -#define RRESULT1 {6.2969621000000000066166,-0.1908142591446193858662,0.0676336000000001824617,\ --1.4461027999999997994962,-0.7577484999999999359943,0.2136987591446193046618,\ -0.4656031000000000474870,0.2136987591446193046618,-0.7577484999999999359943,\ --1.4461027999999997994962,0.0676336000000001824617,-0.1908142591446193858662} - -#define IRESULT1 {0,-0.0438615735192828815059,-1.0572926567728160307524,0.3325204999999997745874,\ -0.3011445725036896448046,-1.3036713264807171519521,0,1.3036713264807171519521,\ --0.3011445725036896448046,-0.3325204999999997745874,1.0572926567728160307524,\ -0.0438615735192828815059} - -#define RRESULT2 {6.2969621000000000066166,-0.5345696999999998144659,\ -0.0676336000000000714394,-0.3918127000000001247670,\ --0.7577485000000003800835,-1.2843509999999995763176,\ -0.4656030999999999364647,1.0404605000000000103455,\ --0.7577485000000003800835,-1.2843509999999995763176,\ -0.0676336000000000714394,-0.3918127000000001247670} - -#define IRESULT2 {0,0,\ --1.05729265677281625280,0.6392575178288871784460,\ -0.3011445725036897003157,-1.043770536118125757952,\ -0,0,\ --0.3011445725036897003157,1.043770536118125757952,\ -1.05729265677281625280,-0.6392575178288871784460} - -#define RRESULT3 {6.2969621000000000066166,-0.9588242499999999335358,-0.9588242499999999335358,\ --1.4461027999999997994962,-0.3545214899631756733101,-0.1146366100368243767793,\ -0.4656031000000000474870,0.7607519500000001766438,0.7607519500000001766438,\ --1.4461027999999997994962,-0.1146366100368243767793,-0.3545214899631756733101} - -#define IRESULT3 {0,0.4319893196725672623870,-0.4319893196725672623870,\ -0.3325204999999997745874,1.0479284784196345459151,-0.5945896784196345041806,\ -0,0.5437395057261036335206,-0.5437395057261036335206,\ --0.3325204999999997745874,0.5945896784196345041806,-1.0479284784196345459151} - -#define RRESULT4 {6.2969621000000000066166,0.1445965000000000166835,-1.0205663000000000373291,\ - 0.1445965000000000166835,\ --0.7577485000000003800835,-0.6754837907274804376101,0.8107183000000001138474,\ - -0.8923310092725194042629,\ --0.7577485000000003800835,-0.8923310092725194042629,0.8107183000000001138474,\ - -0.6754837907274804376101} - -#define IRESULT4 {0,-0.6791661999999999421718,0,0.6791661999999999421718,\ -0.3011445725036897003157,-1.4357905268456061520510,-0.2297677979542606663266,\ - -0.4349033268456063971996,\ --0.3011445725036897003157,0.4349033268456063971996,0.2297677979542606663266,\ - 1.4357905268456061520510} - -#define RRESULT6 {6.2969621000000000066166,-0.5006002499999999688640,-0.4661336499999999549715,\ - -1.113582300000000024909,-0.4661336499999999549715,-0.5006002499999999688640,\ -0.46560309999999915931,0.5234847499999999431708,-0.2239812499999997985611,\ - -1.7786232999999995740836,-0.2239812499999997985611,0.5234847499999999431708} - -#define IRESULT6 {0,0.1475342691353691004785,-1.2256565689200087376776,0,1.2256565689200087376776,\ - -0.1475342691353691004785,\ -0,1.112275483826065114457,-0.1327806603564972709464,0,0.1327806603564972709464,\ - -1.112275483826065114457} - -#define RRESULT9 {45,-4.5,-4.5,-13.5,0,0,-13.5,0,0} - -#define IRESULT9 {0,2.598076211353316011810,- 2.598076211353316011810,7.7942286340599471472501,0,0,- 7.7942286340599471472501,0,0} - -static void dfftmaTest(void){ - int i; - - double in1[]=test1; - double in2[]=test2; - double in3[]=test3; - double in4[]=test4; - double in6[]=test6; - double in9[]=test9; - - double resR1[]=RRESULT1; - double resR2[]=RRESULT2; - double resR3[]=RRESULT3; - double resR4[]=RRESULT4; - double resR6[]=RRESULT6; - double resR9[]=RRESULT9; - - double out1[12], out2[12], out3[12], out4[12], out6[12], out9[9]; - - - printf(" >>> Matrice 1*12 <<< \n"); - dfftma(in1, 1, 12, out1); - for (i=0;i<12;i++){ - if (out1[i]>1e-16) assert( (fabs(out1[i]-resR1[i]) / fabs(out1[i])) < 3e-16 ); - else assert(1); - } - - printf(" >>> Matrice 2*6 <<< \n"); - dfftma(in2, 2, 6, out2); - for (i=0;i<12;i++){ - if (out2[i]>1e-16) assert( (fabs(out2[i]-resR2[i]) / fabs(out2[i])) < 3e-16 ); - else assert(1); - } - - - printf(" >>> Matrice 3*4 <<< \n"); - dfftma(in3, 3, 4, out3); - for (i=0;i<12;i++){ - if (out3[i]>1e-16) assert( (fabs(out3[i]-resR3[i]) / fabs(out3[i])) < 3e-16 ); - else assert(1); - } - - printf(" >>> Matrice 4*3 <<< \n"); - dfftma(in4, 4, 3, out4); - for (i=0;i<12;i++){ - if (out4[i]>1e-16) assert( (fabs(out4[i]-resR4[i]) / fabs(out4[i])) < 3e-16 ); - else assert(1); - } - - printf(" >>> Matrice 6*2 <<< \n"); - dfftma(in6, 6, 2, out6); - for (i=0;i<12;i++){ - if (out6[i]>1e-16) assert( (fabs(out6[i]-resR6[i]) / fabs(out6[i])) < 3e-16 ); - else assert(1); - } - - printf(" >>> Matrice 3*3 <<< \n"); - dfftma(in9, 3, 3, out9); - for (i=0;i<9;i++){ - if (out9[i]>1e-16) assert( (fabs(out9[i]-resR9[i]) / fabs(out9[i])) < 3e-16 ); - else assert(1); - } - - -} - -static void zfftmaTest(void){ - int i; - - double inR1[]=test1; - double inR2[]=test2; - double inR3[]=test3; - double inR4[]=test4; - double inR6[]=test6; - double inR9[]=test9; - - double resR1[]=RRESULT1; - double resI1[]=IRESULT1; - double resR2[]=RRESULT2; - double resI2[]=IRESULT2; - double resR3[]=RRESULT3; - double resI3[]=IRESULT3; - double resR4[]=RRESULT4; - double resI4[]=IRESULT4; - double resR6[]=RRESULT6; - double resI6[]=IRESULT6; - double resR9[]=RRESULT9; - double resI9[]=IRESULT9; - - doubleComplex *in1, *in2, *in3, *in4, *in6, *in9, out1[12], out2[12], out3[12], out4[12], out6[12], out9[12]; - - in1=(doubleComplex*)malloc((unsigned int)12*sizeof(doubleComplex)); - in2=(doubleComplex*)malloc((unsigned int)12*sizeof(doubleComplex)); - in3=(doubleComplex*)malloc((unsigned int)12*sizeof(doubleComplex)); - in4=(doubleComplex*)malloc((unsigned int)12*sizeof(doubleComplex)); - in6=(doubleComplex*)malloc((unsigned int)12*sizeof(doubleComplex)); - in9=(doubleComplex*)malloc((unsigned int)9*sizeof(doubleComplex)); - - - - for (i=0;i<12;i++){ - in1[i]=DoubleComplex(inR1[i],0); - in2[i]=DoubleComplex(inR2[i],0); - in3[i]=DoubleComplex(inR3[i],0); - in4[i]=DoubleComplex(inR4[i],0); - in6[i]=DoubleComplex(inR6[i],0); - } - for (i=0;i<9;i++){ - in9[i]=DoubleComplex(inR9[i],0); - - } - - /* !!!!!!!!!!!!!!!!!!!!!!! - for the imaginary part, the assert is out + res instead of out - res - cause I export the transposate of the result matrix and the transposate change the sign - of the imaginary part. - And instead of change all the define, I only change the sign of the assert.*/ - printf(" >>> Matrice 1*12 <<< \n"); - zfftma(in1, 1, 12, out1); - for (i=0;i<12;i++){ - if (zreals(out1[i])>1e-16) assert( (fabs(zreals(out1[i])-resR1[i]) / fabs(zreals(out1[i]))) < 3e-16 ); - else assert(1); - if (zimags(out1[i])>1e-16) assert( (fabs(zimags(out1[i])+resI1[i]) / fabs(zimags(out1[i]))) < 3e-16 ); - else assert(1); - } - - printf(" >>> Matrice 2*6 <<< \n"); - zfftma(in2, 2, 6, out2); - for (i=0;i<12;i++){ - if (zreals(out2[i])>1e-16) assert( (fabs(zreals(out2[i])-resR2[i]) / fabs(zreals(out2[i]))) < 3e-16 ); - else assert(1); - if (zimags(out2[i])>1e-16) assert( (fabs(zimags(out2[i])+resI2[i]) / fabs(zimags(out2[i]))) < 3e-13 ); - else assert(1); - } - - - printf(" >>> Matrice 3*4 <<< \n"); - zfftma(in3, 3, 4, out3); - for (i=0;i<12;i++){ - if (zreals(out3[i])>1e-16) assert( (fabs(zreals(out3[i])-resR3[i]) / fabs(zreals(out3[i]))) < 3e-16 ); - else assert(1); - if (zimags(out3[i])>1e-16) assert( (fabs(zimags(out3[i])+resI3[i]) / fabs(zimags(out3[i]))) < 3e-16 ); - else assert(1); - } - - printf(" >>> Matrice 4*3 <<< \n"); - zfftma(in4, 4, 3, out4); - for (i=0;i<12;i++){ - if (zreals(out4[i])>1e-16) assert( (fabs(zreals(out4[i])-resR4[i]) / fabs(zreals(out4[i]))) < 3e-16 ); - else assert(1); - if (zimags(out4[i])>1e-16) assert( (fabs(zimags(out4[i])+resI4[i]) / fabs(zimags(out4[i]))) < 3e-16 ); - else assert(1); - } - - printf(" >>> Matrice 6*2 <<< \n"); - zfftma(in6, 6, 2, out6); - for (i=0;i<12;i++){ - if (zreals(out6[i])>1e-16) assert( (fabs(zreals(out6[i])-resR6[i]) / fabs(zreals(out6[i]))) < 3e-16 ); - else assert(1); - if (zimags(out6[i])>1e-16) assert( (fabs(zimags(out6[i])+resI6[i]) / fabs(zimags(out6[i]))) < 3e-16 ); - else assert(1); - } - - printf(" >>> Matrice 3*3 <<< \n"); - zfftma(in9, 3, 3, out9); - for (i=0;i<9;i++){ - if (zreals(out9[i])>1e-16) assert( (fabs(zreals(out9[i])-resR9[i]) / fabs(zreals(out9[i]))) < 3e-16 ); - else assert(1); - - if (zimags(out9[i])>1e-16) assert( (fabs(zimags(out9[i])-resI9[i]) / fabs(zimags(out9[i]))) < 3e-16 ); - else assert(1); - } -} - - - -static int testFft(void){ - dfftmaTest(); - zfftmaTest(); - return 0; -} - - -int main(void) { - printf(">>> Fft Matrices Double Tests <<<\n"); - assert(testFft() == 0); - return 0; -} - |