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Diffstat (limited to '2.3-1/src/c/statisticsFunctions/interfaces/int_meanf.h')
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1 files changed, 183 insertions, 0 deletions
diff --git a/2.3-1/src/c/statisticsFunctions/interfaces/int_meanf.h b/2.3-1/src/c/statisticsFunctions/interfaces/int_meanf.h new file mode 100644 index 00000000..c7fb4da9 --- /dev/null +++ b/2.3-1/src/c/statisticsFunctions/interfaces/int_meanf.h @@ -0,0 +1,183 @@ +/* + * 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 + * + */ + +/* THIS IS AN AUTOMATICALLY GENERATED FILE : DO NOT EDIT BY HAND. */ + +#ifndef __INT_MEANF_H__ +#define __INT_MEANF_H__ + +#define s0s0meanfs0(in1,in2) smeanfs(in1,in2) + +#define d0d0meanfd0(in1,in2) dmeanfs(in1,in2) + +#define c0s0meanfc0(in1,in2) cmeanfs(in1,FloatComplex(in2 , 0.0f)) + +#define z0d0meanfz0(in1,in2) zmeanfs(in1,DoubleComplex(in2, 0.0)) + +#define s2s2meanfs0(in1, size1, in2, size2) smeanfa(in1, size1[0]*size1[1], in2) + +#define d2d2meanfd0(in1, size1, in2, size2) dmeanfa(in1, size1[0]*size1[1], in2) + +#define c2s2meanfc0(in1, size1, in2, size2) cmeanfcs(in1, size1[0], size1[1], in2) + +#define z2d2meanfz0(in1, size1, in2, size2) zmeanfzd(in1, size1[0], size1[1], in2) + + +/*by rows or columns */ + +#define s0s0s0meanfs0(in1,in2,in3) (in3==1) ? srowmeanfs(in1,in2) : scolumnmeanfs(in1,in2) + +#define d0d0d0meanfd0(in1,in2,in3) (in3==1) ? drowmeanfs(in1,in2) : dcolumnmeanfs(in1,in2) + +#define c0s0s0meanfc0(in1,in2,in3) (in3==1) ? crowmeanfs(in1,FloatComplex(in2 , 0.0f)) : ccolumnmeanfs(in1,FloatComplex(in2 , 0.0f)) + +#define z0d0d0meanfz0(in1,in2,in3) (in3==1) ? zrowmeanfs(in1,DoubleComplex(in2, 0.0)) : zcolumnmeanfs(in1,DoubleComplex(in2, 0.0)) + + +#define s2s2s0meanfs2(in1, size1, in2, size2,in3,out) (in3==1) ? srowmeanfa(in1,size1[0],size1[1],in2,out) : scolumnmeanfa(in1,size1[0],size1[1],in2,out) + +#define d2d2d0meanfd2(in1, size1, in2, size2,in3,out) (in3==1) ? drowmeanfa(in1,size1[0],size1[1],in2,out) : dcolumnmeanfa(in1,size1[0],size1[1],in2,out) + + + + + +#define c2s2s0meanfc2(in1, size1, in2, size2,in3,out) if (in3==1) {float* temp;\ + temp=malloc((uint)(size1[0]*size1[1])*sizeof(float));\ + sfilla(temp,size1[0],size1[1],0);\ + crowmeanfa(in1,size1[0],size1[1],FloatComplexMatrix(in2,temp,size1[0]*size1[1]),out);\ + free(temp);\ + }\ + else\ + {float* temp;\ + temp=malloc((uint)(size1[0]*size1[1])*sizeof(float));\ + sfilla(temp,size1[0],size1[1],0);\ + ccolumnmeanfa(in1,size1[0],size1[1],FloatComplexMatrix(in2,temp,size1[0]*size1[1]),out);\ + free(temp);\ + } + +#define z2d2d0meanfz2(in1, size1, in2, size2,in3,out) if (in3==1) {double* temp;\ + temp=malloc((uint)(size1[0]*size1[1])*sizeof(double));\ + dfilla(temp,size1[0],size1[1],0);\ + zrowmeanfa(in1,size1[0],size1[1],DoubleComplexMatrix(in2,temp,size1[0]*size1[1]),out);\ + free(temp);\ + }\ + else\ + {double* temp;\ + temp=malloc((uint)(size1[0]*size1[1])*sizeof(double));\ + dfilla(temp,size1[0],size1[1],0);\ + zcolumnmeanfa(in1,size1[0],size1[1],DoubleComplexMatrix(in2,temp,size1[0]*size1[1]),out);\ + free(temp);\ + } + + +/**/ + + +#define s0c0meanfs0(in1,in2) creals (cmeanfs(FloatComplex(in1 , 0.0f),in2)) +#define s0c0meanfc0(in1,in2) cmeanfs(FloatComplex(in1 , 0.0f),in2) + +#define d0z0meanfd0(in1,in2) zreals(zmeanfs(DoubleComplex(in1, 0.0 ),in2)) +#define d0z0meanfz0(in1,in2) zmeanfs(DoubleComplex(in1, 0.0 ),in2) + +#define c0c0meanfc0(in1,in2) cmeanfs(in1,in2) + +#define z0z0meanfz0(in1,in2) zmeanfs(in1,in2) + + +#define s2c2meanfs0(in1, size1, in2, size2) creals (cmeanfsc(in1, size1[0],size1[1], in2)) +#define s2c2meanfc0(in1, size1, in2, size2) cmeanfsc(in1, size1[0],size1[1], in2) + +#define d2z2meanfd0(in1, size1, in2, size2) zreals(zmeanfdz(in1, size1[0],size1[1], in2)) +#define d2z2meanfz0(in1, size1, in2, size2) zmeanfdz(in1, size1[0],size1[1], in2) + +#define c2c2meanfc0(in1, size1, in2, size2) cmeanfa(in1, size1[0]* size1[1], in2) + +#define z2z2meanfz0(in1, size1, in2, size2) zmeanfa(in1, size1[0]* size1[1], in2) + + +/*by rows or columns */ + +#define s0c0s0meanfs0(in1,in2,in3) (in3==1) ? crowmeanfs(FloatComplex(in1, 0.0f),in2) : ccolumnmeanfs(FloatComplex(in1, 0.0f),in2) + +#define d0z0d0meanfd0(in1,in2,in3) (in3==1) ? zrowmeanfs(DoubleComplex(in1, 0.0),in2) : zcolumnmeanfs(DoubleComplex(in1, 0.0),in2) + +#define c0c0s0meanfc0(in1,in2,in3) (in3==1) ? crowmeanfs(in1,in2) : ccolumnmeanfs(in1,in2) + +#define z0z0d0meanfz0(in1,in2,in3) (in3==1) ? zrowmeanfs(in1,in2) : zcolumnmeanfs(in1,in2) + + +#define s2c2s0meanfs2(in1, size1, in2, size2,in3,out) if (in3==1) {float* temp;\ + temp=malloc((uint)(size1[0]*size1[1])*sizeof(float));\ + sfilla(temp,size1[0],size1[1],0);\ + crowmeanfa(FloatComplexMatrix(in1,temp,size1[0]*size1[1]),size1[0],size1[1],in2,out);\ + free(temp);\ + }\ + else\ + {float* temp;\ + temp=malloc((uint)(size1[0]*size1[1])*sizeof(float));\ + sfilla(temp,size1[0],size1[1],0);\ + ccolumnmeanfa(FloatComplexMatrix(in1,temp,size1[0]*size1[1]),size1[0],size1[1],in2,out);\ + free(temp);\ + } + +#define d2z2d0meanfd2(in1, size1, in2, size2,in3,out) if (in3==1) {double* temp;\ + temp=malloc((uint)(size1[0]*size1[1])*sizeof(double));\ + dfilla(temp,size1[0],size1[1],0);\ + zrowmeanfa(DoubleComplexMatrix(in1,temp,size1[0]*size1[1]),size1[0],size1[1],in2,out);\ + free(temp);\ + }\ + else\ + {double* temp;\ + temp=malloc((uint)(size1[0]*size1[1])*sizeof(double));\ + dfilla(temp,size1[0],size1[1],0);\ + zcolumnmeanfa(DoubleComplexMatrix(in1,temp,size1[0]*size1[1]),size1[0],size1[1],in2,out);\ + free(temp);\ + } + +/*complex output*/ +#define s2c2s0meanfc2(in1, size1, in2, size2,in3,out) if (in3==1) {float* temp;\ + temp=malloc((uint)(size1[0]*size1[1])*sizeof(float));\ + sfilla(temp,size1[0],size1[1],0);\ + crowmeanfa(FloatComplexMatrix(in1,temp,size1[0]*size1[1]),size1[0],size1[1],in2,out);\ + free(temp);\ + }\ + else\ + {float* temp;\ + temp=malloc((uint)(size1[0]*size1[1])*sizeof(float));\ + sfilla(temp,size1[0],size1[1],0);\ + ccolumnmeanfa(FloatComplexMatrix(in1,temp,size1[0]*size1[1]),size1[0],size1[1],in2,out);\ + free(temp);\ + } + +#define d2z2d0meanfz2(in1, size1, in2, size2,in3,out) if (in3==1) {double* temp;\ + temp=malloc((uint)(size1[0]*size1[1])*sizeof(double));\ + dfilla(temp,size1[0],size1[1],0);\ + zrowmeanfa(DoubleComplexMatrix(in1,temp,size1[0]*size1[1]),size1[0],size1[1],in2,out);\ + free(temp);\ + }\ + else\ + {double* temp;\ + temp=malloc((uint)(size1[0]*size1[1])*sizeof(double));\ + dfilla(temp,size1[0],size1[1],0);\ + zcolumnmeanfa(DoubleComplexMatrix(in1,temp,size1[0]*size1[1]),size1[0],size1[1],in2,out);\ + free(temp);\ + } + + + +#define c2c2s0meanfc2(in1, size1, in2, size2,in3,out) (in3==1) ? crowmeanfa(in1,size1[0],size1[1],in2,out) : ccolumnmeanfa(in1,size1[0],size1[1],in2,out) + +#define z2z2d0meanfz2(in1, size1, in2, size2,in3,out) (in3==1) ? zrowmeanfa(in1,size1[0],size1[1],in2,out) : zcolumnmeanfa(in1,size1[0],size1[1],in2,out) + + +#endif /* !__INT_MEANF_H__ */ |