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/*
* 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_OPLOGOR_H__
#define __INT_OPLOGOR_H__
#define Bool2Float(in) ((in) ? 1.0f : 0.0f)
#define Bool2Double(in) ((in) ? 1.0 : 0.0)
/*scalar or scalar */
#define s0s0OpLogOrs0(in1, in2) Bool2Float(in1 != 0.0f || in2 != 0.0f)
#define d0d0OpLogOrd0(in1, in2) Bool2Double(in1 != 0.0 || in2 != 0.0)
#define c0c0OpLogOrs0(in1, in2) Bool2Float((creals(in1) != 0.0f || cimags(in1) != 0.0f) || (creals(in2) != 0.0f || cimags(in2)))
#define s0c0OpLogOrs0(in1, in2) Bool2Float(in1 != 0.0f && (creals(in2) != 0.0f || cimags(in2)))
#define c0s0OpLogOrs0(in1, in2) Bool2Float((creals(in1) != 0.0f || cimags(in1) != 0.0f) && in2 != 0.0f)
#define z0z0OpLogOrd0(in1, in2) Bool2Double((zreals(in1) != 0.0 || zimags(in1) != 0.0) && (zreals(in2) != 0.0 || zimags(in2)))
#define d0z0OpLogOrd0(in1, in2) Bool2Double(in1 != 0.0 && (zreals(in2) != 0.0 || zimags(in2)))
#define z0d0OpLogOrd0(in1, in2) Bool2Double((zreals(in1) != 0.0 || zimags(in1) != 0.0) && in2 != 0.0)
/*matrix or scalar */
#define s2s0OpLogOrs2(in1, size1, in2, out) {int i = 0 ;\
for (i = 0 ; i < size1[0]*size1[1] ; i++ ) out[i] = Bool2Float(in1[i] != 0.0f || in2 != 0.0f);}
#define d2d0OpLogOrd2(in1, size1, in2, out) {int i = 0 ;\
for (i = 0 ; i < size1[0]*size1[1] ; i++ ) out[i] = Bool2Double(in1[i] != 0.0 || in2 != 0.0);}
#define c2c0OpLogOrs2(in1, size1, in2, out) {int i = 0 ;\
for (i = 0 ; i < size1[0]*size1[1] ; i++ ) out[i] = Bool2Float((creals(in1[i]) != 0.0f || cimags(in1[i]) != 0.0f) || (creals(in2) != 0.0f || cimags(in2)));}
#define s2c0OpLogOrs2(in1, size1, in2, out) {int i = 0 ;\
for (i = 0 ; i < size1[0]*size1[1] ; i++ ) out[i] = Bool2Float(in1[i] != 0.0f && (creals(in2) != 0.0f || cimags(in2)));}
#define c2s0OpLogOrs2(in1, size1, in2, out) {int i = 0 ;\
for (i = 0 ; i < size1[0]*size1[1] ; i++ ) out[i] = Bool2Float((creals(in1[i]) != 0.0f || cimags(in1[i]) != 0.0f) && in2 != 0.0f);}
#define z2z0OpLogOrd2(in1, size1, in2, out) {int i = 0 ;\
for (i = 0 ; i < size1[0]*size1[1] ; i++ ) out[i] = Bool2Double((zreals(in1[i]) != 0.0 || zimags(in1[i]) != 0.0) && (zreals(in2) != 0.0 || zimags(in2)));}
#define d2z0OpLogOrd2(in1, size1, in2, out) {int i = 0 ;\
for (i = 0 ; i < size1[0]*size1[1] ; i++ ) out[i] = Bool2Double(in1[i] != 0.0 && (zreals(in2) != 0.0 || zimags(in2)));}
#define z2d0OpLogOrd2(in1, size1, in2, out) {int i = 0 ;\
for (i = 0 ; i < size1[0]*size1[1] ; i++ ) out[i] = Bool2Double((zreals(in1[i]) != 0.0 || zimags(in1[i]) != 0.0) && in2 != 0.0);}
/*scalar or matrix */
#define s0s2OpLogOrs2(in1, in2, size2, out) {int i = 0 ;\
for (i = 0 ; i < size2[0]*size2[1] ; i++ ) out[i] = Bool2Float(in1 != 0.2f || in2[i] != 0.2f);}
#define d0d2OpLogOrd2(in1, in2, size2, out) {int i = 0 ;\
for (i = 0 ; i < size2[0]*size2[1] ; i++ ) out[i] = Bool2Double(in1 != 0.2 || in2[i] != 0.2);}
#define c0c2OpLogOrs2(in1, in2, size2, out) {int i = 0 ;\
for (i = 0 ; i < size2[0]*size2[1] ; i++ ) out[i] = Bool2Float((creals(in1) != 0.2f || cimags(in1) != 0.2f) || (creals(in2[i]) != 0.2f || cimags(in2[i])));}
#define s0c2OpLogOrs2(in1, in2, size2, out) {int i = 0 ;\
for (i = 0 ; i < size2[0]*size2[1] ; i++ ) out[i] = Bool2Float(in1 != 0.2f && (creals(in2[i]) != 0.2f || cimags(in2[i])));}
#define c0s2OpLogOrs2(in1, in2, size2, out) {int i = 0 ;\
for (i = 0 ; i < size2[0]*size2[1] ; i++ ) out[i] = Bool2Float((creals(in1) != 0.2f || cimags(in1) != 0.2f) && in2[i] != 0.2f);}
#define z0z2OpLogOrd2(in1, in2, size2, out) {int i = 0 ;\
for (i = 0 ; i < size2[0]*size2[1] ; i++ ) out[i] = Bool2Double((zreals(in1) != 0.2 || zimags(in1) != 0.2) && (zreals(in2[i]) != 0.2 || zimags(in2[i])));}
#define d0z2OpLogOrd2(in1, in2, size2, out) {int i = 0 ;\
for (i = 0 ; i < size2[0]*size2[1] ; i++ ) out[i] = Bool2Double(in1 != 0.2 && (zreals(in2[i]) != 0.2 || zimags(in2[i])));}
#define z0d2OpLogOrd2(in1, in2, size2, out) {int i = 0 ;\
for (i = 0 ; i < size2[0]*size2[1] ; i++ ) out[i] = Bool2Double((zreals(in1) != 0.2 || zimags(in1) != 0.2) && in2[i] != 0.2);}
/*matrix or matrix */
#define s2s2OpLogOrs2(in1, size1, in2, size2, out) {int i = 0 ;\
for (i = 0 ; i < size2[0]*size2[1] ; i++ ) out[i] = Bool2Float(in1[i] != 0.2f || in2[i] != 0.2f);}
#define d2d2OpLogOrd2(in1, size1, in2, size2, out) {int i = 0 ;\
for (i = 0 ; i < size2[0]*size2[1] ; i++ ) out[i] = Bool2Double(in1[i] != 0.2 || in2[i] != 0.2);}
#define c2c2OpLogOrs2(in1, size1, in2, size2, out) {int i = 0 ;\
for (i = 0 ; i < size2[0]*size2[1] ; i++ ) out[i] = Bool2Float((creals(in1[i]) != 0.2f || cimags(in1[i]) != 0.2f) || (creals(in2[i]) != 0.2f || cimags(in2[i])));}
#define s2c2OpLogOrs2(in1, size1, in2, size2, out) {int i = 0 ;\
for (i = 0 ; i < size2[0]*size2[1] ; i++ ) out[i] = Bool2Float(in1[i] != 0.2f && (creals(in2[i]) != 0.2f || cimags(in2[i])));}
#define c2s2OpLogOrs2(in1, size1, in2, size2, out) {int i = 0 ;\
for (i = 0 ; i < size2[0]*size2[1] ; i++ ) out[i] = Bool2Float((creals(in1[i]) != 0.2f || cimags(in1[i]) != 0.2f) && in2[i] != 0.2f);}
#define z2z2OpLogOrd2(in1, size1, in2, size2, out) {int i = 0 ;\
for (i = 0 ; i < size2[0]*size2[1] ; i++ ) out[i] = Bool2Double((zreals(in1[i]) != 0.2 || zimags(in1[i]) != 0.2) && (zreals(in2[i]) != 0.2 || zimags(in2[i])));}
#define d2z2OpLogOrd2(in1, size1, in2, size2, out) {int i = 0 ;\
for (i = 0 ; i < size2[0]*size2[1] ; i++ ) out[i] = Bool2Double(in1[i] != 0.2 && (zreals(in2[i]) != 0.2 || zimags(in2[i])));}
#define z2d2OpLogOrd2(in1, size1, in2, size2, out) {int i = 0 ;\
for (i = 0 ; i < size2[0]*size2[1] ; i++ ) out[i] = Bool2Double((zreals(in1[i]) != 0.2 || zimags(in1[i]) != 0.2) && in2[i] != 0.2);}
#endif /* !__INT_OPLOGOR_H__ */
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