00001 #ifndef UIBUILD
00002 #define UIBUILD
00003
00004 #include <itpp/itbase.h>
00005 #include "stat/libBM.h"
00006 #include "libconfig/libconfig.h++"
00007
00008 namespace bdm {
00009
00010 using namespace libconfig;
00011 using namespace std;
00012
00013 #define CHECK_UITYPE(S,Type) it_assert_debug(S.getType()==Setting::Type, string("Wrong input path \"")+string(S.getPath())+string("\""));
00014 #define UIREGISTER(UI) UI* UI##_global_instance = new UI();
00015
00017 #define UICATCH ( SettingTypeException e ) {it_error ( "Setting " +string ( e.getPath() ) +" is of incorrect Type" );} catch ( SettingNotFoundException e ) {it_error ( "Setting " + string ( e.getPath() ) +" was not found" );}
00018
00020
00021 class UIbuilder;
00023 typedef map<const string, const UIbuilder*> UImap;
00024 extern UImap __uimap__;
00025
00026 class UIFile : public Config {
00027 public:
00028 UIFile ( const char * fname ) :Config() {
00029 try{Config::readFile ( fname );}
00030 catch ( FileIOException f ) {it_error ( "File " + string ( fname ) + " not found" );}
00031 catch ( ParseException& P ) {
00032 char msg[200];
00033 sprintf ( msg,"Error in file %s on line %d.", fname, P.getLine() );
00034 it_error ( msg );
00035 }
00036 setAutoConvert(true);
00037 }
00038 };
00039
00042
00044 inline vec getvec ( Setting& S ) {
00045 vec vector;
00046 if (S.getType() == Setting::TypeArray) {
00047 vector.set_size ( S.getLength() );
00048 for ( int i=0;i<S.getLength();i++ ) {
00049 switch ( S[i].getType() ) {
00050 case Setting::TypeFloat :
00051 vector[i]=double ( S[i] );break;
00052 case Setting::TypeInt :
00053 vector[i]=int ( S[i] );break;
00054 case Setting::TypeBoolean :
00055 vector[i]=bool ( S[i] );break;
00056 default: it_error ( "libconfig error?" );
00057 }
00058 }
00059 } else if (S.getType() == Setting::TypeGroup) {
00060 vector = getvec(S["elements"]);
00061 int cols = S["cols"];
00062 if (vector.length() != cols) {
00063 it_error("requested vector is a matrix");
00064 }
00065 } else {
00066 it_error("requested vector has invalid type");
00067 }
00068 return vector;
00069 };
00070
00072 inline mat getmat ( Setting& S , int ncols ) {
00073 CHECK_UITYPE ( S,TypeArray );
00074 mat tmp;
00075 int nrows=S.getLength() /ncols;
00076 int r=0,c=0;
00077 tmp.set_size ( nrows, ncols );
00078
00079 for ( int i=0;i<S.getLength();i++ ) {
00080 switch ( S[i].getType() ) {
00081 case Setting::TypeFloat :
00082 tmp ( r,c ) =double ( S[i] );break;
00083 case Setting::TypeInt :
00084 tmp ( r,c ) =int ( S[i] );break;
00085 case Setting::TypeBoolean :
00086 tmp ( r,c ) =bool ( S[i] );break;
00087 default: it_error ( "libconfig error?" );
00088 }
00089 c++; if ( c==ncols ) {c=0;r++;}
00090 }
00091 return tmp;
00092 };
00093
00096 inline mat getmat (Setting & S) {
00097 CHECK_UITYPE (S, TypeGroup);
00098 return getmat(S["elements"], S["cols"]);
00099 }
00100
00102
00103 inline ivec getivec ( Setting& S ) {
00104 CHECK_UITYPE ( S,TypeArray );
00105 ivec tmp;
00106 tmp.set_size ( S.getLength() );
00107 for ( int i=0;i<S.getLength();i++ ) {
00108 switch ( S[i].getType() ) {
00109 case Setting::TypeFloat :
00110 tmp[i]=double ( S[i] );break;
00111 case Setting::TypeInt :
00112 tmp[i]=int ( S[i] );break;
00113 case Setting::TypeBoolean :
00114 tmp[i]=bool ( S[i] );break;
00115 default: it_error ( "libconfig error?" );
00116 }
00117 }
00118 return tmp;
00119 };
00120
00122
00123 inline Array<string> get_as ( Setting& S ) {
00124
00125 Array<string> tmp;
00126 tmp.set_size ( S.getLength() );
00127 for ( int i=0;i<S.getLength();i++ ) {tmp ( i ) = ( const char* ) S[i];}
00128 return tmp;
00129 };
00130
00132
00137 class UIbuilder {
00138 protected:
00139 public:
00141 UIbuilder ( const string &typ ) {__uimap__.insert ( make_pair ( typ,this ) );}
00143 virtual bdmroot* build ( Setting &S ) const =0;
00145 virtual ~UIbuilder(){};
00146 };
00147
00157 class UIexternal:public UIbuilder {
00158 public:
00159 UIexternal() :UIbuilder ( "external" ) {}
00160 bdmroot* build ( Setting &S ) const;
00161 };
00162
00171 class UIinternal:public UIbuilder {
00172 public:
00173 UIinternal() :UIbuilder ( "internal" ) {}
00174 bdmroot* build ( Setting &S ) const;
00175 };
00176
00178 void UI_DBG ( Setting &S, const string &spc );
00179
00181 template<class T>
00182 void UIbuild ( Setting &S, T* &ret ) {
00183 CHECK_UITYPE ( S,TypeGroup );
00184
00185 it_assert_debug ( S.exists ( "type" ), string ( S.getPath() ) +" is not a valid UI!" );
00186
00187 const string typ=S["type"];
00188
00189 UImap::const_iterator iter = __uimap__.find ( typ );
00190 if ( iter == __uimap__.end() ) {
00191 it_error ( "UI of type \"" + typ + "\" is not registered!" );
00192 }
00193
00194
00195 try {
00196 ret = dynamic_cast<T*> ( iter->second->build ( S ) );
00197 }
00198 catch UICATCH
00199 };
00200
00202 template<class T>
00203 void UIcall ( Setting &S, void ( *func ) ( Setting&, T ), T Tmp ) {
00204 CHECK_UITYPE ( S,TypeGroup );
00205
00206 it_assert_debug ( S.exists ( "type" ), string ( S.getPath() ) +" is not a valid UI!" );
00207
00208 const string typ=S["type"];
00209 if ( typ=="internal" ) {
00210 try {
00211 Setting* Stmp = &S;
00212 do {Stmp=& ( Stmp->getParent() );}
00213 while ( !Stmp->isRoot() );
00214 Setting& intS=Stmp->lookup ( ( const char* ) S["path"] );
00215 func ( intS, Tmp );
00216 return;
00217 }
00218 catch ( ... ) {
00219 it_error ( "Internal field " + string ( S.getPath() ) + " not valid" );
00220 }
00221 }
00222 if ( typ=="external" ) {
00223 UIFile C ( S["filename"] );
00224 try {
00225 func ( C.lookup ( ( const char* ) S["path"] ), Tmp );
00226 }
00227 catch ( ... ) {
00228 it_error ( "External field " + string ( S.getPath() ) + " not valid" );
00229 }
00230 return;
00231 }
00232
00233
00234 func ( S, Tmp );
00235 };
00236
00237 }
00238 #endif //UIBUILD
