/* * Scilab ( http://www.scilab.org/ ) - This file is part of Scilab * Copyright (C) 2008-2008 - INRIA - Bruno JOFRET * * 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_FIND_H__ #define __INT_FIND_H__ /* 1 input, 1 output */ #define s0finds0(in) (in == 0) ? -1 : 1 #define d0findd0(in) (in == 0) ? -1 : 1 #define c0finds0(in) ((creals(in) == 0) && (cimags(in) == 0)) ? -1 : 1 #define z0findd0(in) ((zreals(in) == 0) && (zimags(in) == 0)) ? -1 : 1 #define s2finds2(in,size,out) sfinda(in, size[0]*size[1], out, -1) #define d2findd2(in,size,out) dfinda(in, size[0]*size[1], out, -1) #define c2finds2(in,size,out) cfinda(in, size[0]*size[1], out, -1) #define z2findd2(in,size,out) zfinda(in, size[0]*size[1], out, -1) /* 1 input, 2 outputs */ #define s0finds0s0(in,out2) *out2 = s0finds0(in);s0finds0(in) #define d0findd0d0(in,out2) *out2 = d0findd0(in);d0findd0(in) #define c0finds0s0(in,out2) if ((creals(in)==0) && (cimags(in)==0)) {out2=0;} else {out2=1;} #define z0findd0d0(in,out2) if ((zreals(in)==0) && (zimags(in)==0)) {out2=0;} else {out2=1;} #define s2finds2s2(in,size,out1,sizeOut1,out2,sizeOut2) sfind2da(in,size[0],size[1],out1,sizeOut1,out2,sizeOut2,-1) #define d2findd2d2(in,size,out1,out2) dfind2da(in,size[0],size[1],out1,out2,-1) #define c2finds2s2(in,size,out1,sizeOut1,out2,sizeOut2) cfind2da(in,size[0],size[1],out1,sizeOut1,out2,sizeOut2,-1) #define z2finds2s2(in,size,out1,sizeOut1,out2,sizeOut2) zfind2da(in,size[0],size[1],out1,sizeOut1,out2,sizeOut2,-1) /* 2 inputs, 1 output */ #define s0s0finds0(in1,in2) s0finds0(in1) #define d0d0findd0(in1,in2) d0findd0(in1) #define c0s0finds0(in1,in2) c0finds0(in1) #define z0d0findd0(in1,in2) z0findd0(in1) #define s2s0finds2(in1,size,in2,out) {\ int temp_out_indice[2] = {0} ;\ sfinda(in1,size[0]*size[1],out,in2);\ } #define d2d0findd2(in1,size,in2,out) {\ int temp_out_indice[2] = {0} ;\ dfinda(in1,size[0]*size[1],out,in2);\ } #define c2s0finds2(in1,size,in2,out) {\ int temp_out_indice[2] = {0} ;\ cfinda(in1,size[0]*size[1],out,in2);\ } #define z2d0findd2(in1,size,in2,out) {\ int temp_out_indice[2] = {0} ;\ zfinda(in1,size[0]*size[1],out,in2);\ } /* 2 inputs, 2 outputs */ #define s0s0finds0s0(in1,in2,out1,out2) s0finds0s0(in1,out1,out2) #define d0d0findd0d0(in1,in2,out1,out2) d0findd0d0(in1,out1,out2) #define c0s0finds0s0(in1,in2,out1,out2) c0finds0s0(in1,out1,out2) #define z0d0findd0d0(in1,in2,out1,out2) z0findd0d0(in1,out1,out2) /*FIXME : prototypes are wrong*/ #define s2s0finds2s2(in1,size,in2,out1,out2) {\ int temp_out_indice1[2] = {0} ;\ int temp_out_indice2[2] = {0} ;\ sfind2da(in1,size[0],size[1],out1,temp_out_indice1,out2,temp_out_indice2,in2);\ } #define d2d0findd2d2(in1,size,in2,out1,out2) {\ int temp_out_indice1[2] = {0} ;\ int temp_out_indice2[2] = {0} ;\ dfind2da(in1,size[0],size[1],out1,temp_out_indice1,out2,temp_out_indice2,in2);\ } #define c2s0finds2s2(in1,size,in2,out1,out2) {\ int temp_out_indice1[2] = {0} ;\ int temp_out_indice2[2] = {0} ;\ cfind2da(in1,size[0],size[1],out1,temp_out_indice1,out2,temp_out_indice2,in2);\ } #define z2d0findd2d2(in1,size,in2,out1,out2) {\ int temp_out_indice1[2] = {0} ;\ int temp_out_indice2[2] = {0} ;\ zfind2da(in1,size[0],size[1],out1,temp_out_indice1,out2,temp_out_indice2,in2);\ } #endif /* !__INT_FIND_H__ */