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lemma_mirror
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Lemma is an Electromagnetics API
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lemma_mirror/LemmaCore/include/helper.h

helper.h 7.5KB
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  1. /* This file is part of Lemma, a geophysical modelling and inversion API.

  2.  * More information is available at http://lemmasoftware.org

  3.  */

  4. 

  5. /* This Source Code Form is subject to the terms of the Mozilla Public

  6.  * License, v. 2.0. If a copy of the MPL was not distributed with this

  7.  * file, You can obtain one at http://mozilla.org/MPL/2.0/.

  8.  */

  9. 

  10. /**

  11.  * @file

  12.  * @date      10/02/2014 02:49:55 PM

  13.  * @version   $Id$

  14.  * @author    Trevor Irons (ti)

  15.  * @email     Trevor.Irons@xri-geo.com

  16.  * @copyright Copyright (c) 2014, XRI Geophysics, LLC

  17.  * @copyright Copyright (c) 2014, Trevor Irons

  18.  */

  19. 

  20. #pragma once

  21. 

  22. #ifndef  HELPER_INC

  23. #define  HELPER_INC

  24. 

  25. #include "lemma.h"

  26. 

  27. #ifdef HAVE_YAMLCPP

  28. #include "yaml-cpp/yaml.h"

  29. #endif

  30. 

  31. namespace Lemma {

  32. 

  33.     template <class T>

  34.     inline std::string to_string (const T& t) {

  35.         std::stringstream ss;

  36.         ss << t;

  37.         return ss.str();

  38.     }

  39. 

  40. 

  41.     // handy little way to convert enums, saves repeated code useful for YAML serializing

  42.     std::string enum2String(const FREQUENCYUNITS& Units);

  43.     std::string enum2String(const TIMEUNITS& Units);

  44.     std::string enum2String(const MAGUNITS& Units);

  45.     std::string enum2String(const TEMPUNITS& Units);

  46.     std::string enum2String(const FEMCOILORIENTATION& Units);

  47.     std::string enum2String(const ORIENTATION& Units);

  48.     std::string enum2String(const FIELDCOMPONENT& Comp);

  49.     std::string enum2String(const HANKELTRANSFORMTYPE& Htype);

  50.     std::string enum2String(const FIELDCALCULATIONS& Htype);

  51. 

  52.     // other way around is a template, where template argument lets us know

  53.     // which specialisation to use.

  54.     template <typename T>

  55.     T string2Enum( const std::string& str );

  56. 

  57.     // Handy little class that indents a stream.

  58.     // Based on solution provided here, todo may need to add to some managing class which keeps

  59.     // track of nesting levels? But perhaps not. A Lemma class will contain pointers to other Lemma

  60.     // classes. But those are not specifically listed out.

  61.     // http://stackoverflow.com/questions/9599807/how-to-add-indention-to-the-stream-operator

  62.     class IndentingOStreambuf : public std::streambuf {

  63.         std::streambuf*     myDest;

  64.         bool                myIsAtStartOfLine;

  65.         std::string         myIndent;

  66.         std::ostream*       myOwner;

  67.     protected:

  68.         virtual int         overflow( int ch )

  69.         {

  70.             if ( myIsAtStartOfLine && ch != '\n' ) {

  71.                 myDest->sputn( myIndent.data(), myIndent.size() );

  72.             }

  73.             myIsAtStartOfLine = ch == '\n';

  74.             return myDest->sputc( ch );

  75.         }

  76.     public:

  77.         explicit            IndentingOStreambuf(

  78.                                 std::streambuf* dest, int indent = 4 )

  79.             : myDest( dest )

  80.             , myIsAtStartOfLine( true )

  81.             , myIndent( indent, ' ' )

  82.             , myOwner( NULL )

  83.         {

  84.         }

  85.         explicit            IndentingOStreambuf(

  86.                                 std::ostream& dest, int indent = 4 )

  87.             : myDest( dest.rdbuf() )

  88.             , myIsAtStartOfLine( true )

  89.             , myIndent( indent, ' ' )

  90.             , myOwner( &dest )

  91.         {

  92.             myOwner->rdbuf( this );

  93.         }

  94.         virtual             ~IndentingOStreambuf()

  95.         {

  96.             if ( myOwner != NULL ) {

  97.                 myOwner->rdbuf( myDest );

  98.             }

  99.         }

  100.     };

  101. 

  102. 

  103. } // end namespace Lemma

  104. 

  105. #ifdef HAVE_YAMLCPP

  106. 

  107. ///////////////////////////////////////////////////////

  108. // YAML Serializing helper functions. Can we move this into helper.h

  109. namespace YAML {

  110. 

  111. template<>

  112. struct convert<Lemma::Complex> {

  113.   static Node encode(const Lemma::Complex& rhs) {

  114.     Node node;

  115.     node["real"] = rhs.real();

  116.     node["imag"] = rhs.imag();

  117. 

  118.     // No labels

  119.     //node.push_back(rhs.real());

  120.     //node.push_back(rhs.imag());

  121. 

  122.     node.SetTag( "Complex" ); // too verbose?

  123.     return node;

  124.   }

  125. 

  126.   static bool decode(const Node& node, Lemma::Complex& rhs) {

  127.     // Disabled due to overly verbose output. Just believe...

  128.     if( node.Tag() != "Complex" ) {

  129.         return false;

  130.     }

  131.     rhs = Lemma::Complex( node["real"].as<Lemma::Real>(), node["imag"].as<Lemma::Real>()  );

  132.     // no label style

  133.     //rhs = Lemma::Complex( node[0].as<Lemma::Real>(), node[1].as<Lemma::Real>()  );

  134.     return true;

  135.   }

  136. 

  137. };

  138. 

  139. template<>

  140. struct convert<Lemma::Vector3Xr> {

  141.   static Node encode(const Lemma::Vector3Xr& rhs) {

  142.     Node node;

  143.     node["size"] = rhs.cols();

  144.     //node["rows"] = rhs.rows(); // == 3

  145.     for (int ic=0; ic<rhs.cols(); ++ic) {

  146.         node[ic].push_back( rhs(0, ic) );

  147.         node[ic].push_back( rhs(1, ic) );

  148.         node[ic].push_back( rhs(2, ic) );

  149.     }

  150.     node.SetTag( "Vector3Xr" );

  151.     return node;

  152.   }

  153. 

  154.   static bool decode(const Node& node, Lemma::Vector3Xr& rhs) {

  155.     if( node.Tag() != "Vector3Xr" ) {

  156.         return false;

  157.     }

  158.     rhs.resize( Eigen::NoChange, node["size"].as<int>() );

  159.     for (unsigned int ic=0; ic<node.size(); ++ic) {

  160.         int ir=0;

  161.         for(YAML::const_iterator it=node[ic].begin();it!=node[ic].end();++it) {

  162.             rhs(ir, ic) = it->as<Lemma::Real>();

  163.             ++ir;

  164.         }

  165.     }

  166.     return true;

  167.   }

  168. };

  169. 

  170. template<>

  171. struct convert<Lemma::VectorXr> {

  172.   static Node encode(const Lemma::VectorXr& rhs) {

  173.     Node node;

  174.     node["size"] = rhs.size();

  175.     for (int ic=0; ic<rhs.size(); ++ic) {

  176.         node["data"].push_back( rhs(ic) );

  177.     }

  178.     node.SetTag( "VectorXr" );

  179.     return node;

  180.   }

  181. 

  182.   static bool decode(const Node& node, Lemma::VectorXr& rhs) {

  183.     if( node.Tag() != "VectorXr" ) {

  184.         return false;

  185.     }

  186.     rhs.resize( node["size"].as<int>() );

  187.     int ir=0;

  188.     for(YAML::const_iterator it=node["data"].begin(); it!=node["data"].end(); ++it) {

  189.         rhs(ir) = it->as<Lemma::Real>();

  190.         ++ir;

  191.     }

  192.     return true;

  193.   }

  194. };

  195. 

  196. template<>

  197. struct convert<Lemma::VectorXcr> {

  198.   static Node encode(const Lemma::VectorXcr& rhs) {

  199.     Node node;

  200.     node["size"] = rhs.size();

  201.     for (int ic=0; ic<rhs.size(); ++ic) {

  202.         node["data"].push_back( rhs(ic) );

  203.     }

  204.     node.SetTag( "VectorXcr" );

  205.     return node;

  206.   }

  207. 

  208.   static bool decode(const Node& node, Lemma::VectorXcr& rhs) {

  209.     if( node.Tag() != "VectorXcr" ) {

  210.         return false;

  211.     }

  212.     rhs.resize( node["size"].as<int>() );

  213.     int ir=0;

  214.     for(YAML::const_iterator it=node["data"].begin(); it!=node["data"].end(); ++it) {

  215.         rhs(ir) = it->as<Lemma::Complex>();

  216.         ++ir;

  217.     }

  218.     return true;

  219.   }

  220. };

  221. 

  222. 

  223. template<>

  224. struct convert<Lemma::VectorXi> {

  225.   static Node encode(const Lemma::VectorXi& rhs) {

  226.     Node node;

  227.     node["size"] = rhs.size();

  228.     for (int ic=0; ic<rhs.size(); ++ic) {

  229.         node["data"].push_back( rhs(ic) );

  230.     }

  231.     node.SetTag( "VectorXi" );

  232.     return node;

  233.   }

  234. 

  235.   static bool decode(const Node& node, Lemma::VectorXi& rhs) {

  236.     if( node.Tag() != "VectorXi" ) {

  237.         return false;

  238.     }

  239.     rhs.resize( node["size"].as<int>() );

  240.     int ir=0;

  241.     for(YAML::const_iterator it=node["data"].begin(); it!=node["data"].end(); ++it) {

  242.         rhs(ir) = it->as<int>();

  243.         ++ir;

  244.     }

  245.     return true;

  246.   }

  247. };

  248. 

  249. template<>

  250. struct convert<Lemma::Vector3r> {

  251.   static Node encode(const Lemma::Vector3r& rhs) {

  252.     Node node;

  253.     for (int ic=0; ic<rhs.size(); ++ic) {

  254.         node[0].push_back( rhs(ic) );

  255.     }

  256.     node.SetTag( "Vector3r" );

  257.     return node;

  258.   }

  259. 

  260.   static bool decode(const Node& node, Lemma::Vector3r& rhs) {

  261.     if( node.Tag() != "Vector3r" ) {

  262.         return false;

  263.     }

  264.     int ir=0;

  265.     for(YAML::const_iterator it=node[0].begin(); it!=node[0].end(); ++it) {

  266.         rhs(ir) = it->as<Lemma::Real>();

  267.         ++ir;

  268.     }

  269.     return true;

  270.   }

  271. };

  272. 

  273. }

  274. #endif //HAVE_YAMLCPP

  275. 

  276. #endif   // ----- #ifndef HELPER_INC  -----