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< title > PhasicFlow: src/phasicFlow/containers/Vector/VectorMath.hpp Source File< / title >
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< div class = "title" > VectorMath.hpp< / div > < / div >
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< a href = "VectorMath_8hpp.html" > Go to the documentation of this file.< / a > < div class = "fragment" > < div class = "line" > < a name = "l00001" > < / a > < span class = "lineno" > 1< / span >   < span class = "comment" > /*------------------------------- phasicFlow ---------------------------------< / span > < / div >
< div class = "line" > < a name = "l00002" > < / a > < span class = "lineno" > 2< / span >   < span class = "comment" > O C enter of< / span > < / div >
< div class = "line" > < a name = "l00003" > < / a > < span class = "lineno" > 3< / span >   < span class = "comment" > O O E ngineering and< / span > < / div >
< div class = "line" > < a name = "l00004" > < / a > < span class = "lineno" > 4< / span >   < span class = "comment" > O O M ultiscale modeling of< / span > < / div >
< div class = "line" > < a name = "l00005" > < / a > < span class = "lineno" > 5< / span >   < span class = "comment" > OOOOOOO F luid flow < / span > < / div >
< div class = "line" > < a name = "l00006" > < / a > < span class = "lineno" > 6< / span >   < span class = "comment" > ------------------------------------------------------------------------------< / span > < / div >
< div class = "line" > < a name = "l00007" > < / a > < span class = "lineno" > 7< / span >   < span class = "comment" > Copyright (C): www.cemf.ir< / span > < / div >
< div class = "line" > < a name = "l00008" > < / a > < span class = "lineno" > 8< / span >   < span class = "comment" > email: hamid.r.norouzi AT gmail.com< / span > < / div >
< div class = "line" > < a name = "l00009" > < / a > < span class = "lineno" > 9< / span >   < span class = "comment" > ------------------------------------------------------------------------------ < / span > < / div >
< div class = "line" > < a name = "l00010" > < / a > < span class = "lineno" > 10< / span >   < span class = "comment" > Licence:< / span > < / div >
< div class = "line" > < a name = "l00011" > < / a > < span class = "lineno" > 11< / span >   < span class = "comment" > This file is part of phasicFlow code. It is a free software for simulating < / span > < / div >
< div class = "line" > < a name = "l00012" > < / a > < span class = "lineno" > 12< / span >   < span class = "comment" > granular and multiphase flows. You can redistribute it and/or modify it under< / span > < / div >
< div class = "line" > < a name = "l00013" > < / a > < span class = "lineno" > 13< / span >   < span class = "comment" > the terms of GNU General Public License v3 or any other later versions. < / span > < / div >
< div class = "line" > < a name = "l00014" > < / a > < span class = "lineno" > 14< / span >   < span class = "comment" > < / span > < / div >
< div class = "line" > < a name = "l00015" > < / a > < span class = "lineno" > 15< / span >   < span class = "comment" > phasicFlow is distributed to help others in their research in the field of < / span > < / div >
< div class = "line" > < a name = "l00016" > < / a > < span class = "lineno" > 16< / span >   < span class = "comment" > granular and multiphase flows, but WITHOUT ANY WARRANTY; without even the< / span > < / div >
< div class = "line" > < a name = "l00017" > < / a > < span class = "lineno" > 17< / span >   < span class = "comment" > implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.< / span > < / div >
< div class = "line" > < a name = "l00018" > < / a > < span class = "lineno" > 18< / span >   < span class = "comment" > < / span > < / div >
< div class = "line" > < a name = "l00019" > < / a > < span class = "lineno" > 19< / span >   < span class = "comment" > -----------------------------------------------------------------------------*/< / span > < / div >
< div class = "line" > < a name = "l00020" > < / a > < span class = "lineno" > 20< / span >   < / div >
< div class = "line" > < a name = "l00021" > < / a > < span class = "lineno" > 21< / span >   < / div >
< div class = "line" > < a name = "l00022" > < / a > < span class = "lineno" > < a class = "line" href = "VectorMath_8hpp.html#ad72be126a8149d87494a422e518c36ae" > 22< / a > < / span >   < span class = "preprocessor" > #define VecFunc(fnName) \< / span > < / div >
< div class = "line" > < a name = "l00023" > < / a > < span class = "lineno" > 23< / span >   < span class = "preprocessor" > template< typename T, typename Allocator> \< / span > < / div >
< div class = "line" > < a name = "l00024" > < / a > < span class = "lineno" > 24< / span >   < span class = "preprocessor" > inline pFlow::Vector< T, Allocator> pFlow::fnName(const Vector< T,Allocator> & v) \< / span > < / div >
< div class = "line" > < a name = "l00025" > < / a > < span class = "lineno" > 25< / span >   < span class = "preprocessor" > { \< / span > < / div >
< div class = "line" > < a name = "l00026" > < / a > < span class = "lineno" > 26< / span >   < span class = "preprocessor" > Vector< T, Allocator> res(v.capacity(), Logical()); \< / span > < / div >
< div class = "line" > < a name = "l00027" > < / a > < span class = "lineno" > 27< / span >   < span class = "preprocessor" > for(auto& e:v) \< / span > < / div >
< div class = "line" > < a name = "l00028" > < / a > < span class = "lineno" > 28< / span >   < span class = "preprocessor" > { \< / span > < / div >
< div class = "line" > < a name = "l00029" > < / a > < span class = "lineno" > 29< / span >   < span class = "preprocessor" > res.push_back( fnName(e) ); \< / span > < / div >
< div class = "line" > < a name = "l00030" > < / a > < span class = "lineno" > 30< / span >   < span class = "preprocessor" > } \< / span > < / div >
< div class = "line" > < a name = "l00031" > < / a > < span class = "lineno" > 31< / span >   < span class = "preprocessor" > return std::move(res); \< / span > < / div >
< div class = "line" > < a name = "l00032" > < / a > < span class = "lineno" > 32< / span >   < span class = "preprocessor" > } \< / span > < / div >
< div class = "line" > < a name = "l00033" > < / a > < span class = "lineno" > 33< / span >   < span class = "preprocessor" > template< typename T, typename Allocator, typename indexFunc> \< / span > < / div >
< div class = "line" > < a name = "l00034" > < / a > < span class = "lineno" > 34< / span >   < span class = "preprocessor" > inline pFlow::Vector< T, Allocator> pFlow::fnName(const Vector< T, Allocator> & v, indexFunc iFn) \< / span > < / div >
< div class = "line" > < a name = "l00035" > < / a > < span class = "lineno" > 35< / span >   < span class = "preprocessor" > { \< / span > < / div >
< div class = "line" > < a name = "l00036" > < / a > < span class = "lineno" > 36< / span >   < span class = "preprocessor" > Vector< T, Allocator> res(v.capacity(), Logical()); \< / span > < / div >
< div class = "line" > < a name = "l00037" > < / a > < span class = "lineno" > 37< / span >   < span class = "preprocessor" > for(label i=0; i< v.size(); i++) \< / span > < / div >
< div class = "line" > < a name = "l00038" > < / a > < span class = "lineno" > 38< / span >   < span class = "preprocessor" > { \< / span > < / div >
< div class = "line" > < a name = "l00039" > < / a > < span class = "lineno" > 39< / span >   < span class = "preprocessor" > if( iFn(i) ) \< / span > < / div >
< div class = "line" > < a name = "l00040" > < / a > < span class = "lineno" > 40< / span >   < span class = "preprocessor" > res.push_back(fnName(v[i])); \< / span > < / div >
< div class = "line" > < a name = "l00041" > < / a > < span class = "lineno" > 41< / span >   < span class = "preprocessor" > else \< / span > < / div >
< div class = "line" > < a name = "l00042" > < / a > < span class = "lineno" > 42< / span >   < span class = "preprocessor" > res.push_back(v[i]); \< / span > < / div >
< div class = "line" > < a name = "l00043" > < / a > < span class = "lineno" > 43< / span >   < span class = "preprocessor" > } \< / span > < / div >
< div class = "line" > < a name = "l00044" > < / a > < span class = "lineno" > 44< / span >   < span class = "preprocessor" > return std::move(res); \< / span > < / div >
< div class = "line" > < a name = "l00045" > < / a > < span class = "lineno" > 45< / span >   < span class = "preprocessor" > }< / span > < / div >
< div class = "line" > < a name = "l00046" > < / a > < span class = "lineno" > 46< / span >   < / div >
< div class = "line" > < a name = "l00047" > < / a > < span class = "lineno" > < a class = "line" href = "VectorMath_8hpp.html#a81a1de815972f3dbf27f2343ccd40616" > 47< / a > < / span >   < span class = "preprocessor" > #define VecFunc2(fnName) \< / span > < / div >
< div class = "line" > < a name = "l00048" > < / a > < span class = "lineno" > 48< / span >   < span class = "preprocessor" > template< typename T, typename Allocator> \< / span > < / div >
< div class = "line" > < a name = "l00049" > < / a > < span class = "lineno" > 49< / span >   < span class = "preprocessor" > inline pFlow::Vector< T, Allocator> pFlow::fnName(const Vector< T, Allocator> & v1, const Vector< T, Allocator> & v2) \< / span > < / div >
< div class = "line" > < a name = "l00050" > < / a > < span class = "lineno" > 50< / span >   < span class = "preprocessor" > { \< / span > < / div >
< div class = "line" > < a name = "l00051" > < / a > < span class = "lineno" > 51< / span >   < span class = "preprocessor" > Vector< T, Allocator> res(v1.capacity(), Logical()); \< / span > < / div >
< div class = "line" > < a name = "l00052" > < / a > < span class = "lineno" > 52< / span >   < span class = "preprocessor" > for(label i=0; i< v1.size(); i++) \< / span > < / div >
< div class = "line" > < a name = "l00053" > < / a > < span class = "lineno" > 53< / span >   < span class = "preprocessor" > { \< / span > < / div >
< div class = "line" > < a name = "l00054" > < / a > < span class = "lineno" > 54< / span >   < span class = "preprocessor" > res.push_back( fnName(v1[i], v2[i])); \< / span > < / div >
< div class = "line" > < a name = "l00055" > < / a > < span class = "lineno" > 55< / span >   < span class = "preprocessor" > } \< / span > < / div >
< div class = "line" > < a name = "l00056" > < / a > < span class = "lineno" > 56< / span >   < span class = "preprocessor" > return std::move(res); \< / span > < / div >
< div class = "line" > < a name = "l00057" > < / a > < span class = "lineno" > 57< / span >   < span class = "preprocessor" > } \< / span > < / div >
< div class = "line" > < a name = "l00058" > < / a > < span class = "lineno" > 58< / span >   < span class = "preprocessor" > template< typename T, typename Allocator, typename indexFunc> \< / span > < / div >
< div class = "line" > < a name = "l00059" > < / a > < span class = "lineno" > 59< / span >   < span class = "preprocessor" > inline pFlow::Vector< T, Allocator> pFlow::fnName(const Vector< T, Allocator> & v1, const Vector< T, Allocator> & v2, indexFunc iFn) \< / span > < / div >
< div class = "line" > < a name = "l00060" > < / a > < span class = "lineno" > 60< / span >   < span class = "preprocessor" > { \< / span > < / div >
< div class = "line" > < a name = "l00061" > < / a > < span class = "lineno" > 61< / span >   < span class = "preprocessor" > Vector< T, Allocator> res(v1.capacity(), Logical()); \< / span > < / div >
< div class = "line" > < a name = "l00062" > < / a > < span class = "lineno" > 62< / span >   < span class = "preprocessor" > for(label i=0; i< v1.size(); i++) \< / span > < / div >
< div class = "line" > < a name = "l00063" > < / a > < span class = "lineno" > 63< / span >   < span class = "preprocessor" > { \< / span > < / div >
< div class = "line" > < a name = "l00064" > < / a > < span class = "lineno" > 64< / span >   < span class = "preprocessor" > if( iFn(i) ) \< / span > < / div >
< div class = "line" > < a name = "l00065" > < / a > < span class = "lineno" > 65< / span >   < span class = "preprocessor" > res.push_back(fnName(v1[i], v2[i])); \< / span > < / div >
< div class = "line" > < a name = "l00066" > < / a > < span class = "lineno" > 66< / span >   < span class = "preprocessor" > else \< / span > < / div >
< div class = "line" > < a name = "l00067" > < / a > < span class = "lineno" > 67< / span >   < span class = "preprocessor" > res.push_back(v1[i]); \< / span > < / div >
< div class = "line" > < a name = "l00068" > < / a > < span class = "lineno" > 68< / span >   < span class = "preprocessor" > } \< / span > < / div >
< div class = "line" > < a name = "l00069" > < / a > < span class = "lineno" > 69< / span >   < span class = "preprocessor" > return std::move(res); \< / span > < / div >
< div class = "line" > < a name = "l00070" > < / a > < span class = "lineno" > 70< / span >   < span class = "preprocessor" > }< / span > < / div >
< div class = "line" > < a name = "l00071" > < / a > < span class = "lineno" > 71< / span >   < / div >
< div class = "line" > < a name = "l00072" > < / a > < span class = "lineno" > 72< / span >   < / div >
< div class = "line" > < a name = "l00073" > < / a > < span class = "lineno" > 73< / span >   < span class = "comment" > //* * * * * * * * * * * List of functinos * * * * * * * * //< / span > < / div >
< div class = "line" > < a name = "l00074" > < / a > < span class = "lineno" > 74< / span >   < span class = "comment" > // abs, mod, exp, log, log10, pow, sqrt, cbrt< / span > < / div >
< div class = "line" > < a name = "l00075" > < / a > < span class = "lineno" > 75< / span >   < span class = "comment" > // sin, cos, tan, asin, acos, atan, atan2< / span > < / div >
< div class = "line" > < a name = "l00076" > < / a > < span class = "lineno" > 76< / span >   < span class = "comment" > // sinh, cosh, tanh, asinh, acosh, atanh < / span > < / div >
< div class = "line" > < a name = "l00077" > < / a > < span class = "lineno" > 77< / span >   < span class = "comment" > // min, max< / span > < / div >
< div class = "line" > < a name = "l00078" > < / a > < span class = "lineno" > 78< / span >   < span class = "comment" > //* * * * * * * * * * * * * * * * * * * * * * * * * * * * //< / span > < / div >
< div class = "line" > < a name = "l00079" > < / a > < span class = "lineno" > 79< / span >   < / div >
< div class = "line" > < a name = "l00080" > < / a > < span class = "lineno" > 80< / span >   < a class = "code" href = "VectorMath_8hpp.html#ad72be126a8149d87494a422e518c36ae" > VecFunc< / a > (< a class = "code" href = "namespacepFlow.html#a62ab5f54018a48f829abd2cca13d75b2" > abs< / a > );< / div >
< div class = "line" > < a name = "l00081" > < / a > < span class = "lineno" > 81< / span >   < a class = "code" href = "VectorMath_8hpp.html#a81a1de815972f3dbf27f2343ccd40616" > VecFunc2< / a > (< a class = "code" href = "namespacepFlow.html#a733d0766b5a543b796883d6551e33347" > mod< / a > );< / div >
< div class = "line" > < a name = "l00082" > < / a > < span class = "lineno" > 82< / span >   < a class = "code" href = "VectorMath_8hpp.html#ad72be126a8149d87494a422e518c36ae" > VecFunc< / a > (< a class = "code" href = "namespacepFlow.html#a04309949af74c41abe6a8fb8cd47c179" > exp< / a > );< / div >
< div class = "line" > < a name = "l00083" > < / a > < span class = "lineno" > 83< / span >   < a class = "code" href = "VectorMath_8hpp.html#ad72be126a8149d87494a422e518c36ae" > VecFunc< / a > (< a class = "code" href = "namespacepFlow.html#ab5c52c3f812c9d7bd8623a7c72eb9ce5" > log< / a > );< / div >
< div class = "line" > < a name = "l00084" > < / a > < span class = "lineno" > 84< / span >   < a class = "code" href = "VectorMath_8hpp.html#ad72be126a8149d87494a422e518c36ae" > VecFunc< / a > (< a class = "code" href = "namespacepFlow.html#a11dc25fe78058b75bb94660a16a9571f" > log10< / a > );< / div >
< div class = "line" > < a name = "l00085" > < / a > < span class = "lineno" > 85< / span >   < a class = "code" href = "VectorMath_8hpp.html#a81a1de815972f3dbf27f2343ccd40616" > VecFunc2< / a > (< a class = "code" href = "namespacepFlow.html#a9144ff9208c7188e115afed6b3fa0f0a" > pow< / a > );< / div >
< div class = "line" > < a name = "l00086" > < / a > < span class = "lineno" > 86< / span >   < a class = "code" href = "VectorMath_8hpp.html#ad72be126a8149d87494a422e518c36ae" > VecFunc< / a > (< a class = "code" href = "namespacepFlow.html#aedf0e44e92e0f7a18c7c724daf0f52fa" > sqrt< / a > );< / div >
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< div class = "line" > < a name = "l00101" > < / a > < span class = "lineno" > 101< / span >   < / div >
< div class = "line" > < a name = "l00102" > < / a > < span class = "lineno" > 102< / span >   < span class = "preprocessor" > #undef VecFunc< / span > < / div >
< div class = "line" > < a name = "l00103" > < / a > < span class = "lineno" > 103< / span >   < / div >
< div class = "line" > < a name = "l00105" > < / a > < span class = "lineno" > 105< / span >   < span class = "keyword" > namespace < / span > < a class = "code" href = "namespacepFlow.html" > pFlow< / a > < / div >
< div class = "line" > < a name = "l00106" > < / a > < span class = "lineno" > 106< / span >   {< / div >
< div class = "line" > < a name = "l00107" > < / a > < span class = "lineno" > 107< / span >   < / div >
< div class = "line" > < a name = "l00108" > < / a > < span class = "lineno" > 108< / span >   < span class = "keyword" > template< / span > < < span class = "keyword" > typename< / span > T, < span class = "keyword" > typename< / span > Allocator> < / div >
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< div class = "line" > < a name = "l00110" > < / a > < span class = "lineno" > 110< / span >   {< / div >
< div class = "line" > < a name = "l00111" > < / a > < span class = "lineno" > 111< / span >   < a class = "code" href = "classpFlow_1_1Vector.html" > Vector< T, Allocator> < / a > res(v.< a class = "code" href = "classpFlow_1_1Vector.html#a234de5cb432c97fcb4b0f806bb86624e" > capacity< / a > (), < a class = "code" href = "classpFlow_1_1Logical.html" > Logical< / a > ());< / div >
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< div class = "line" > < a name = "l00113" > < / a > < span class = "lineno" > 113< / span >   {< / div >
< div class = "line" > < a name = "l00114" > < / a > < span class = "lineno" > 114< / span >   res.push_back(< a class = "code" href = "namespacepFlow.html#ae8c7f45b1b39def821f63012151da10c" > pow< / a > (elm,e));< / div >
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< div class = "line" > < a name = "l00116" > < / a > < span class = "lineno" > 116< / span >   < span class = "keywordflow" > return< / span > std::move(res);< / div >
< div class = "line" > < a name = "l00117" > < / a > < span class = "lineno" > 117< / span >   }< / div >
< div class = "line" > < a name = "l00118" > < / a > < span class = "lineno" > 118< / span >   < / div >
< div class = "line" > < a name = "l00119" > < / a > < span class = "lineno" > 119< / span >   < span class = "keyword" > template< / span > < < span class = "keyword" > typename< / span > T, < span class = "keyword" > typename< / span > Allocator, < span class = "keyword" > typename< / span > indexFunc> < / div >
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< div class = "line" > < a name = "l00121" > < / a > < span class = "lineno" > 121< / span >   {< / div >
< div class = "line" > < a name = "l00122" > < / a > < span class = "lineno" > 122< / span >   < a class = "code" href = "classpFlow_1_1Vector.html" > Vector< T, Allocator> < / a > res(v.< a class = "code" href = "classpFlow_1_1Vector.html#a234de5cb432c97fcb4b0f806bb86624e" > capacity< / a > (), < a class = "code" href = "classpFlow_1_1Logical.html" > Logical< / a > ());< / div >
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< div class = "line" > < a name = "l00125" > < / a > < span class = "lineno" > 125< / span >   < span class = "keywordflow" > if< / span > (iFn(i))< / div >
< div class = "line" > < a name = "l00126" > < / a > < span class = "lineno" > 126< / span >   {< / div >
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< div class = "line" > < a name = "l00129" > < / a > < span class = "lineno" > 129< / span >   < span class = "keywordflow" > else< / span > < / div >
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< div class = "line" > < a name = "l00132" > < / a > < span class = "lineno" > 132< / span >   }< / div >
< div class = "line" > < a name = "l00133" > < / a > < span class = "lineno" > 133< / span >   }< / div >
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< div class = "line" > < a name = "l00136" > < / a > < span class = "lineno" > 136< / span >   < / div >
< div class = "line" > < a name = "l00137" > < / a > < span class = "lineno" > 137< / span >   < span class = "keyword" > template< / span > < < span class = "keyword" > typename< / span > T, < span class = "keyword" > typename< / span > Allocator> < / div >
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< div class = "line" > < a name = "l00140" > < / a > < span class = "lineno" > 140< / span >   T minVal(largestPositive< T> ());< / div >
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< div class = "line" > < a name = "l00142" > < / a > < span class = "lineno" > 142< / span >   {< / div >
< div class = "line" > < a name = "l00143" > < / a > < span class = "lineno" > 143< / span >   minVal = < a class = "code" href = "namespacepFlow.html#aba2f2ccdd3d4a6b403a2c2d379198396" > min< / a > (elm, minVal);< / div >
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< div class = "line" > < a name = "l00145" > < / a > < span class = "lineno" > 145< / span >   < span class = "keywordflow" > return< / span > minVal;< / div >
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< div class = "line" > < a name = "l00148" > < / a > < span class = "lineno" > 148< / span >   < span class = "keyword" > template< / span > < < span class = "keyword" > typename< / span > T, < span class = "keyword" > typename< / span > Allocator, < span class = "keyword" > typename< / span > indexFunc> < / div >
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< div class = "line" > < a name = "l00150" > < / a > < span class = "lineno" > 150< / span >   {< / div >
< div class = "line" > < a name = "l00151" > < / a > < span class = "lineno" > 151< / span >   T minVal(largestPositive< T> ());< / div >
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< div class = "line" > < a name = "l00153" > < / a > < span class = "lineno" > 153< / span >   {< / div >
< div class = "line" > < a name = "l00154" > < / a > < span class = "lineno" > 154< / span >   < span class = "keywordflow" > if< / span > (iFn(i))< / div >
< div class = "line" > < a name = "l00155" > < / a > < span class = "lineno" > 155< / span >   {< / div >
< div class = "line" > < a name = "l00156" > < / a > < span class = "lineno" > 156< / span >   minVal = < a class = "code" href = "namespacepFlow.html#aba2f2ccdd3d4a6b403a2c2d379198396" > min< / a > (v[i], minVal);< / div >
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< div class = "line" > < a name = "l00158" > < / a > < span class = "lineno" > 158< / span >   < / div >
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< div class = "line" > < a name = "l00160" > < / a > < span class = "lineno" > 160< / span >   < span class = "keywordflow" > return< / span > minVal;< / div >
< div class = "line" > < a name = "l00161" > < / a > < span class = "lineno" > 161< / span >   }< / div >
< div class = "line" > < a name = "l00162" > < / a > < span class = "lineno" > 162< / span >   < / div >
< div class = "line" > < a name = "l00163" > < / a > < span class = "lineno" > 163< / span >   < span class = "keyword" > template< / span > < < span class = "keyword" > typename< / span > T, < span class = "keyword" > typename< / span > Allocator> < / div >
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< div class = "line" > < a name = "l00165" > < / a > < span class = "lineno" > 165< / span >   {< / div >
< div class = "line" > < a name = "l00166" > < / a > < span class = "lineno" > 166< / span >   T maxVal(largestNegative< T> ());< / div >
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< div class = "line" > < a name = "l00171" > < / a > < span class = "lineno" > 171< / span >   < span class = "keywordflow" > return< / span > maxVal;< / div >
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< div class = "line" > < a name = "l00177" > < / a > < span class = "lineno" > 177< / span >   T maxVal(largestNegative< T> ());< / div >
< div class = "line" > < a name = "l00178" > < / a > < span class = "lineno" > 178< / span >   < span class = "keywordflow" > for< / span > (< a class = "code" href = "namespacepFlow.html#a39f5f71474553bc78726494fa09dd0fb" > label< / a > i=0; i< v.< a class = "code" href = "classpFlow_1_1Vector.html#a10efdf47ffedbdc720f71c2f72b98d98" > size< / a > (); i++)< / div >
< div class = "line" > < a name = "l00179" > < / a > < span class = "lineno" > 179< / span >   {< / div >
< div class = "line" > < a name = "l00180" > < / a > < span class = "lineno" > 180< / span >   < span class = "keywordflow" > if< / span > (iFn(i))< / div >
< div class = "line" > < a name = "l00181" > < / a > < span class = "lineno" > 181< / span >   {< / div >
< div class = "line" > < a name = "l00182" > < / a > < span class = "lineno" > 182< / span >   maxVal = < a class = "code" href = "namespacepFlow.html#ae14bf16748b3144baa1112f08c2a83b1" > max< / a > (v[i], maxVal);< / div >
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< div class = "line" > < a name = "l00184" > < / a > < span class = "lineno" > 184< / span >   < / div >
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< div class = "line" > < a name = "l00186" > < / a > < span class = "lineno" > 186< / span >   < span class = "keywordflow" > return< / span > maxVal;< / div >
< div class = "line" > < a name = "l00187" > < / a > < span class = "lineno" > 187< / span >   }< / div >
< div class = "line" > < a name = "l00188" > < / a > < span class = "lineno" > 188< / span >   < / div >
< div class = "line" > < a name = "l00189" > < / a > < span class = "lineno" > 189< / span >   < span class = "keyword" > template< / span > < < span class = "keyword" > typename< / span > T, < span class = "keyword" > typename< / span > Allocator> < / div >
< div class = "line" > < a name = "l00190" > < / a > < span class = "lineno" > < a class = "line" href = "namespacepFlow.html#a5e5faf4a41be846e6a66a6fab9326ca9" > 190< / a > < / span >   < span class = "keyword" > inline< / span > T < a class = "code" href = "namespacepFlow.html#a5e5faf4a41be846e6a66a6fab9326ca9" > sum< / a > (< span class = "keyword" > const< / span > < a class = "code" href = "classpFlow_1_1Vector.html" > Vector< T, Allocator> < / a > & v)< / div >
< div class = "line" > < a name = "l00191" > < / a > < span class = "lineno" > 191< / span >   {< / div >
< div class = "line" > < a name = "l00192" > < / a > < span class = "lineno" > 192< / span >   T s = < span class = "keyword" > static_cast< < / span > T< span class = "keyword" > > < / span > (0);< / div >
< div class = "line" > < a name = "l00193" > < / a > < span class = "lineno" > 193< / span >   < span class = "keywordflow" > for< / span > (< span class = "keyword" > auto< / span > & elm:v)< / div >
< div class = "line" > < a name = "l00194" > < / a > < span class = "lineno" > 194< / span >   {< / div >
< div class = "line" > < a name = "l00195" > < / a > < span class = "lineno" > 195< / span >   s += elm;< / div >
< div class = "line" > < a name = "l00196" > < / a > < span class = "lineno" > 196< / span >   }< / div >
< div class = "line" > < a name = "l00197" > < / a > < span class = "lineno" > 197< / span >   < span class = "keywordflow" > return< / span > s;< / div >
< div class = "line" > < a name = "l00198" > < / a > < span class = "lineno" > 198< / span >   }< / div >
< div class = "line" > < a name = "l00199" > < / a > < span class = "lineno" > 199< / span >   < / div >
< div class = "line" > < a name = "l00200" > < / a > < span class = "lineno" > 200< / span >   < span class = "keyword" > template< / span > < < span class = "keyword" > typename< / span > T, < span class = "keyword" > typename< / span > Allocator, < span class = "keyword" > typename< / span > indexFunc> < / div >
< div class = "line" > < a name = "l00201" > < / a > < span class = "lineno" > < a class = "line" href = "namespacepFlow.html#a9dcdbd0c4d6db890c1eff7b637e844c2" > 201< / a > < / span >   < span class = "keyword" > inline< / span > T < a class = "code" href = "namespacepFlow.html#a5e5faf4a41be846e6a66a6fab9326ca9" > sum< / a > (< span class = "keyword" > const< / span > < a class = "code" href = "classpFlow_1_1Vector.html" > Vector< T, Allocator> < / a > & v, indexFunc iFn)< / div >
< div class = "line" > < a name = "l00202" > < / a > < span class = "lineno" > 202< / span >   {< / div >
< div class = "line" > < a name = "l00203" > < / a > < span class = "lineno" > 203< / span >   T s = < span class = "keyword" > static_cast< < / span > T< span class = "keyword" > > < / span > (0);< / div >
< div class = "line" > < a name = "l00204" > < / a > < span class = "lineno" > 204< / span >   < span class = "keywordflow" > for< / span > (< a class = "code" href = "namespacepFlow.html#a39f5f71474553bc78726494fa09dd0fb" > label< / a > i=0; i< v.< a class = "code" href = "classpFlow_1_1Vector.html#a10efdf47ffedbdc720f71c2f72b98d98" > size< / a > (); ++i)< / div >
< div class = "line" > < a name = "l00205" > < / a > < span class = "lineno" > 205< / span >   {< / div >
< div class = "line" > < a name = "l00206" > < / a > < span class = "lineno" > 206< / span >   < span class = "keywordflow" > if< / span > (iFn(i))< / div >
< div class = "line" > < a name = "l00207" > < / a > < span class = "lineno" > 207< / span >   s += v[i];< / div >
< div class = "line" > < a name = "l00208" > < / a > < span class = "lineno" > 208< / span >   }< / div >
< div class = "line" > < a name = "l00209" > < / a > < span class = "lineno" > 209< / span >   < span class = "keywordflow" > return< / span > s;< / div >
< div class = "line" > < a name = "l00210" > < / a > < span class = "lineno" > 210< / span >   }< / div >
< div class = "line" > < a name = "l00211" > < / a > < span class = "lineno" > 211< / span >   < / div >
< div class = "line" > < a name = "l00212" > < / a > < span class = "lineno" > 212< / span >   }< / div >
< / div > <!-- fragment --> < / div > <!-- contents -->
< / div > <!-- doc - content -->
< div class = "ttc" id = "anamespacepFlow_html_aa4f7821ffd25a53850391823eccec62b" > < div class = "ttname" > < a href = "namespacepFlow.html#aa4f7821ffd25a53850391823eccec62b" > pFlow::atan< / a > < / div > < div class = "ttdeci" > INLINE_FUNCTION_HD real atan(real x)< / div > < div class = "ttdef" > < b > Definition:< / b > < a href = "math_8hpp_source.html#l00218" > math.hpp:218< / a > < / div > < / div >
< div class = "ttc" id = "aVectorMath_8hpp_html_ad72be126a8149d87494a422e518c36ae" > < div class = "ttname" > < a href = "VectorMath_8hpp.html#ad72be126a8149d87494a422e518c36ae" > VecFunc< / a > < / div > < div class = "ttdeci" > #define VecFunc(fnName)< / div > < div class = "ttdef" > < b > Definition:< / b > < a href = "VectorMath_8hpp_source.html#l00022" > VectorMath.hpp:22< / a > < / div > < / div >
< div class = "ttc" id = "anamespacepFlow_html_a02b6302cdf317ac55b5a4e7d63293084" > < div class = "ttname" > < a href = "namespacepFlow.html#a02b6302cdf317ac55b5a4e7d63293084" > pFlow::atan2< / a > < / div > < div class = "ttdeci" > INLINE_FUNCTION_HD real atan2(real y, real x)< / div > < div class = "ttdef" > < b > Definition:< / b > < a href = "math_8hpp_source.html#l00229" > math.hpp:229< / a > < / div > < / div >
< div class = "ttc" id = "anamespacepFlow_html_aee06615d390b4a0a3ac1589b07de88ef" > < div class = "ttname" > < a href = "namespacepFlow.html#aee06615d390b4a0a3ac1589b07de88ef" > pFlow::atanh< / a > < / div > < div class = "ttdeci" > INLINE_FUNCTION_HD real atanh(real x)< / div > < div class = "ttdef" > < b > Definition:< / b > < a href = "math_8hpp_source.html#l00286" > math.hpp:286< / a > < / div > < / div >
< div class = "ttc" id = "anamespacepFlow_html_ac16cb27d8952272fc2cdd82bd5cfc19e" > < div class = "ttname" > < a href = "namespacepFlow.html#ac16cb27d8952272fc2cdd82bd5cfc19e" > pFlow::cos< / a > < / div > < div class = "ttdeci" > INLINE_FUNCTION_HD real cos(real x)< / div > < div class = "ttdef" > < b > Definition:< / b > < a href = "math_8hpp_source.html#l00178" > math.hpp:178< / a > < / div > < / div >
< div class = "ttc" id = "anamespacepFlow_html_aee6110d73360fe9b98a9a0b5d6517f5b" > < div class = "ttname" > < a href = "namespacepFlow.html#aee6110d73360fe9b98a9a0b5d6517f5b" > pFlow::sin< / a > < / div > < div class = "ttdeci" > INLINE_FUNCTION_HD real sin(real x)< / div > < div class = "ttdef" > < b > Definition:< / b > < a href = "math_8hpp_source.html#l00168" > math.hpp:168< / a > < / div > < / div >
< div class = "ttc" id = "anamespacepFlow_html_a0689a3b3dc7f8abd1bcc37804c4b3e39" > < div class = "ttname" > < a href = "namespacepFlow.html#a0689a3b3dc7f8abd1bcc37804c4b3e39" > pFlow::cosh< / a > < / div > < div class = "ttdeci" > INLINE_FUNCTION_HD real cosh(real x)< / div > < div class = "ttdef" > < b > Definition:< / b > < a href = "math_8hpp_source.html#l00249" > math.hpp:249< / a > < / div > < / div >
< div class = "ttc" id = "anamespacepFlow_html_a2089cd71470cbda97e23f3c2e219f9f7" > < div class = "ttname" > < a href = "namespacepFlow.html#a2089cd71470cbda97e23f3c2e219f9f7" > pFlow::asin< / a > < / div > < div class = "ttdeci" > INLINE_FUNCTION_HD real asin(real x)< / div > < div class = "ttdef" > < b > Definition:< / b > < a href = "math_8hpp_source.html#l00197" > math.hpp:197< / a > < / div > < / div >
2023-04-13 11:46:41 -07:00
< div class = "ttc" id = "aclasspFlow_1_1Vector_html_a10efdf47ffedbdc720f71c2f72b98d98" > < div class = "ttname" > < a href = "classpFlow_1_1Vector.html#a10efdf47ffedbdc720f71c2f72b98d98" > pFlow::Vector::size< / a > < / div > < div class = "ttdeci" > auto size() const< / div > < div class = "ttdef" > < b > Definition:< / b > < a href = "Vector_8hpp_source.html#l00301" > Vector.hpp:301< / a > < / div > < / div >
2023-03-27 10:16:23 -07:00
< div class = "ttc" id = "anamespacepFlow_html_a11dc25fe78058b75bb94660a16a9571f" > < div class = "ttname" > < a href = "namespacepFlow.html#a11dc25fe78058b75bb94660a16a9571f" > pFlow::log10< / a > < / div > < div class = "ttdeci" > INLINE_FUNCTION_HD real log10(real x)< / div > < div class = "ttdef" > < b > Definition:< / b > < a href = "math_8hpp_source.html#l00128" > math.hpp:128< / a > < / div > < / div >
< div class = "ttc" id = "anamespacepFlow_html_ab5c52c3f812c9d7bd8623a7c72eb9ce5" > < div class = "ttname" > < a href = "namespacepFlow.html#ab5c52c3f812c9d7bd8623a7c72eb9ce5" > pFlow::log< / a > < / div > < div class = "ttdeci" > INLINE_FUNCTION_HD real log(real x)< / div > < div class = "ttdef" > < b > Definition:< / b > < a href = "math_8hpp_source.html#l00119" > math.hpp:119< / a > < / div > < / div >
< div class = "ttc" id = "anamespacepFlow_html_a0df4133c757db76238f71d9281af7e5a" > < div class = "ttname" > < a href = "namespacepFlow.html#a0df4133c757db76238f71d9281af7e5a" > pFlow::tan< / a > < / div > < div class = "ttdeci" > INLINE_FUNCTION_HD real tan(real x)< / div > < div class = "ttdef" > < b > Definition:< / b > < a href = "math_8hpp_source.html#l00188" > math.hpp:188< / a > < / div > < / div >
< div class = "ttc" id = "anamespacepFlow_html" > < div class = "ttname" > < a href = "namespacepFlow.html" > pFlow< / a > < / div > < div class = "ttdef" > < b > Definition:< / b > < a href = "demComponent_8hpp_source.html#l00028" > demComponent.hpp:28< / a > < / div > < / div >
< div class = "ttc" id = "anamespacepFlow_html_a2ee7d2cb0c44d7ad8abcccbc73160761" > < div class = "ttname" > < a href = "namespacepFlow.html#a2ee7d2cb0c44d7ad8abcccbc73160761" > pFlow::sinh< / a > < / div > < div class = "ttdeci" > INLINE_FUNCTION_HD real sinh(real x)< / div > < div class = "ttdef" > < b > Definition:< / b > < a href = "math_8hpp_source.html#l00239" > math.hpp:239< / a > < / div > < / div >
2023-04-13 11:46:41 -07:00
< div class = "ttc" id = "aclasspFlow_1_1Vector_html_a234de5cb432c97fcb4b0f806bb86624e" > < div class = "ttname" > < a href = "classpFlow_1_1Vector.html#a234de5cb432c97fcb4b0f806bb86624e" > pFlow::Vector::capacity< / a > < / div > < div class = "ttdeci" > auto capacity() const< / div > < div class = "ttdef" > < b > Definition:< / b > < a href = "Vector_8hpp_source.html#l00306" > Vector.hpp:306< / a > < / div > < / div >
2023-03-27 10:16:23 -07:00
< div class = "ttc" id = "anamespacepFlow_html_ae8c7f45b1b39def821f63012151da10c" > < div class = "ttname" > < a href = "namespacepFlow.html#ae8c7f45b1b39def821f63012151da10c" > pFlow::pow< / a > < / div > < div class = "ttdeci" > Vector< T, Allocator > pow(const Vector< T, Allocator > & v, T e)< / div > < div class = "ttdef" > < b > Definition:< / b > < a href = "VectorMath_8hpp_source.html#l00109" > VectorMath.hpp:109< / a > < / div > < / div >
< div class = "ttc" id = "anamespacepFlow_html_a9144ff9208c7188e115afed6b3fa0f0a" > < div class = "ttname" > < a href = "namespacepFlow.html#a9144ff9208c7188e115afed6b3fa0f0a" > pFlow::pow< / a > < / div > < div class = "ttdeci" > Vector< T, Allocator > pow(const Vector< T, Allocator > & v, T e, indexFunc iFn)< / div > < div class = "ttdef" > < b > Definition:< / b > < a href = "VectorMath_8hpp_source.html#l00120" > VectorMath.hpp:120< / a > < / div > < / div >
< div class = "ttc" id = "aVectorMath_8hpp_html_a81a1de815972f3dbf27f2343ccd40616" > < div class = "ttname" > < a href = "VectorMath_8hpp.html#a81a1de815972f3dbf27f2343ccd40616" > VecFunc2< / a > < / div > < div class = "ttdeci" > #define VecFunc2(fnName)< / div > < div class = "ttdef" > < b > Definition:< / b > < a href = "VectorMath_8hpp_source.html#l00047" > VectorMath.hpp:47< / a > < / div > < / div >
< div class = "ttc" id = "anamespacepFlow_html_a62ab5f54018a48f829abd2cca13d75b2" > < div class = "ttname" > < a href = "namespacepFlow.html#a62ab5f54018a48f829abd2cca13d75b2" > pFlow::abs< / a > < / div > < div class = "ttdeci" > INLINE_FUNCTION_HD real abs(real x)< / div > < div class = "ttdef" > < b > Definition:< / b > < a href = "math_8hpp_source.html#l00043" > math.hpp:43< / a > < / div > < / div >
< div class = "ttc" id = "anamespacepFlow_html_a23fda25d850f7ff342c665e7f3bc97a4" > < div class = "ttname" > < a href = "namespacepFlow.html#a23fda25d850f7ff342c665e7f3bc97a4" > pFlow::acos< / a > < / div > < div class = "ttdeci" > INLINE_FUNCTION_HD real acos(real x)< / div > < div class = "ttdef" > < b > Definition:< / b > < a href = "math_8hpp_source.html#l00208" > math.hpp:208< / a > < / div > < / div >
< div class = "ttc" id = "anamespacepFlow_html_a733d0766b5a543b796883d6551e33347" > < div class = "ttname" > < a href = "namespacepFlow.html#a733d0766b5a543b796883d6551e33347" > pFlow::mod< / a > < / div > < div class = "ttdeci" > INLINE_FUNCTION_HD real mod(real x, real y)< / div > < div class = "ttdef" > < b > Definition:< / b > < a href = "math_8hpp_source.html#l00072" > math.hpp:72< / a > < / div > < / div >
< div class = "ttc" id = "anamespacepFlow_html_a6e50eb5e13bb39470db0c9591b7f4921" > < div class = "ttname" > < a href = "namespacepFlow.html#a6e50eb5e13bb39470db0c9591b7f4921" > pFlow::tanh< / a > < / div > < div class = "ttdeci" > INLINE_FUNCTION_HD real tanh(real x)< / div > < div class = "ttdef" > < b > Definition:< / b > < a href = "math_8hpp_source.html#l00259" > math.hpp:259< / a > < / div > < / div >
< div class = "ttc" id = "anamespacepFlow_html_a04309949af74c41abe6a8fb8cd47c179" > < div class = "ttname" > < a href = "namespacepFlow.html#a04309949af74c41abe6a8fb8cd47c179" > pFlow::exp< / a > < / div > < div class = "ttdeci" > INLINE_FUNCTION_HD real exp(real x)< / div > < div class = "ttdef" > < b > Definition:< / b > < a href = "math_8hpp_source.html#l00110" > math.hpp:110< / a > < / div > < / div >
< div class = "ttc" id = "anamespacepFlow_html_a5e5faf4a41be846e6a66a6fab9326ca9" > < div class = "ttname" > < a href = "namespacepFlow.html#a5e5faf4a41be846e6a66a6fab9326ca9" > pFlow::sum< / a > < / div > < div class = "ttdeci" > T sum(const Vector< T, Allocator > & v)< / div > < div class = "ttdef" > < b > Definition:< / b > < a href = "VectorMath_8hpp_source.html#l00190" > VectorMath.hpp:190< / a > < / div > < / div >
< div class = "ttc" id = "anamespacepFlow_html_ae14bf16748b3144baa1112f08c2a83b1" > < div class = "ttname" > < a href = "namespacepFlow.html#ae14bf16748b3144baa1112f08c2a83b1" > pFlow::max< / a > < / div > < div class = "ttdeci" > T max(const Vector< T, Allocator > & v)< / div > < div class = "ttdef" > < b > Definition:< / b > < a href = "VectorMath_8hpp_source.html#l00164" > VectorMath.hpp:164< / a > < / div > < / div >
< div class = "ttc" id = "anamespacepFlow_html_aa7ad99ac1d2662b2e5e71b2b6516e931" > < div class = "ttname" > < a href = "namespacepFlow.html#aa7ad99ac1d2662b2e5e71b2b6516e931" > pFlow::asinh< / a > < / div > < div class = "ttdeci" > INLINE_FUNCTION_HD real asinh(real x)< / div > < div class = "ttdef" > < b > Definition:< / b > < a href = "math_8hpp_source.html#l00268" > math.hpp:268< / a > < / div > < / div >
< div class = "ttc" id = "aclasspFlow_1_1Logical_html" > < div class = "ttname" > < a href = "classpFlow_1_1Logical.html" > pFlow::Logical< / a > < / div > < div class = "ttdef" > < b > Definition:< / b > < a href = "Logical_8hpp_source.html#l00035" > Logical.hpp:35< / a > < / div > < / div >
< div class = "ttc" id = "anamespacepFlow_html_a39f5f71474553bc78726494fa09dd0fb" > < div class = "ttname" > < a href = "namespacepFlow.html#a39f5f71474553bc78726494fa09dd0fb" > pFlow::label< / a > < / div > < div class = "ttdeci" > std::size_t label< / div > < div class = "ttdef" > < b > Definition:< / b > < a href = "builtinTypes_8hpp_source.html#l00061" > builtinTypes.hpp:61< / a > < / div > < / div >
< div class = "ttc" id = "anamespacepFlow_html_a31737f46fdcd2bf15821541a2cb601c3" > < div class = "ttname" > < a href = "namespacepFlow.html#a31737f46fdcd2bf15821541a2cb601c3" > pFlow::acosh< / a > < / div > < div class = "ttdeci" > INLINE_FUNCTION_HD real acosh(real x)< / div > < div class = "ttdef" > < b > Definition:< / b > < a href = "math_8hpp_source.html#l00277" > math.hpp:277< / a > < / div > < / div >
< div class = "ttc" id = "anamespacepFlow_html_aedf0e44e92e0f7a18c7c724daf0f52fa" > < div class = "ttname" > < a href = "namespacepFlow.html#aedf0e44e92e0f7a18c7c724daf0f52fa" > pFlow::sqrt< / a > < / div > < div class = "ttdeci" > INLINE_FUNCTION_HD real sqrt(real x)< / div > < div class = "ttdef" > < b > Definition:< / b > < a href = "math_8hpp_source.html#l00148" > math.hpp:148< / a > < / div > < / div >
< div class = "ttc" id = "anamespacepFlow_html_a74f4ffdea40998d4f4ff0eab72342e2e" > < div class = "ttname" > < a href = "namespacepFlow.html#a74f4ffdea40998d4f4ff0eab72342e2e" > pFlow::cbrt< / a > < / div > < div class = "ttdeci" > INLINE_FUNCTION_HD real cbrt(real x)< / div > < div class = "ttdef" > < b > Definition:< / b > < a href = "math_8hpp_source.html#l00158" > math.hpp:158< / a > < / div > < / div >
< div class = "ttc" id = "aclasspFlow_1_1Vector_html" > < div class = "ttname" > < a href = "classpFlow_1_1Vector.html" > pFlow::Vector< / a > < / div > < div class = "ttdef" > < b > Definition:< / b > < a href = "Vector_8hpp_source.html#l00046" > Vector.hpp:46< / a > < / div > < / div >
< div class = "ttc" id = "anamespacepFlow_html_aba2f2ccdd3d4a6b403a2c2d379198396" > < div class = "ttname" > < a href = "namespacepFlow.html#aba2f2ccdd3d4a6b403a2c2d379198396" > pFlow::min< / a > < / div > < div class = "ttdeci" > T min(const Vector< T, Allocator > & v)< / div > < div class = "ttdef" > < b > Definition:< / b > < a href = "VectorMath_8hpp_source.html#l00138" > VectorMath.hpp:138< / a > < / div > < / div >
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