/* * rs-core/src/dbase: rsexpr.cc * * RetroShare C++ Interface. * * Copyright 2007-2008 by Kashif Kaleem. * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Library General Public * License Version 2 as published by the Free Software Foundation. * * This library is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * Library General Public License for more details. * * You should have received a copy of the GNU Library General Public * License along with this library; if not, write to the Free Software * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 * USA. * * Please report all bugs and problems to "retroshare@lunamutt.com". * */ #include "dbase/findex.h" #include "rsiface/rsexpr.h" #include #include /****************************************************************************************** eval functions of relational expressions. ******************************************************************************************/ template<> void RelExpression::linearize(LinearizedExpression& e) const { e._ints.push_back(Op) ; e._ints.push_back(LowerValue) ; e._ints.push_back(HigherValue) ; } bool DateExpression::eval(FileEntry *file) { return evalRel(file->modtime); } bool SizeExpression::eval(FileEntry *file) { return evalRel(file->size); } bool PopExpression::eval(FileEntry *file) { return evalRel(file->pop); } /****************************************************************************************** Code for evaluating string expressions ******************************************************************************************/ bool NameExpression::eval(FileEntry *file) { return evalStr(file->name); } bool PathExpression::eval(FileEntry *file){ std::string path; /*Construct the path of this file*/ DirEntry * curr = file->parent; while ( curr != NULL ){ path = curr->name+"/"+ path; curr = curr->parent; } return evalStr(path); } bool ExtExpression::eval(FileEntry *file){ std::string ext; /*Get the part of the string after the last instance of . in the filename */ unsigned int index = file->name.find_last_of('.'); if (index != std::string::npos) { ext = file->name.substr(index+1); if (ext != "" ){ return evalStr(ext); } } return false; } bool HashExpression::eval(FileEntry *file){ return evalStr(file->hash); } /*Check whether two strings are 'equal' to each other*/ static bool StrEquals(const std::string & str1, const std::string & str2, bool IgnoreCase ){ if ( str1.size() != str2.size() ){ return false; } else if (IgnoreCase) { std::equal( str1.begin(), str1.end(), str2.begin(), CompareCharIC() ); } return std::equal( str1.begin(), str1.end(), str2.begin()); } /*Check whether one string contains the other*/ static bool StrContains( std::string & str1, std::string & str2, bool IgnoreCase){ std::string::const_iterator iter ; if (IgnoreCase) { iter = std::search( str1.begin(), str1.end(), str2.begin(), str2.end(), CompareCharIC() ); } else { iter = std::search( str1.begin(), str1.end(), str2.begin(), str2.end()); } return ( iter != str1.end() ); } bool StringExpression :: evalStr ( std::string &str ){ std::list::iterator iter; switch (Op) { case ContainsAllStrings: for ( iter = terms.begin(); iter != terms.end(); iter++ ) { if ( StrContains (str, *iter, IgnoreCase) == false ){ return false; } } return true; break; case ContainsAnyStrings: for ( iter = terms.begin(); iter != terms.end(); iter++ ) { if ( StrContains (str,*iter, IgnoreCase) == true ) { return true; } } break; case EqualsString: for ( iter = terms.begin(); iter != terms.end(); iter++ ) { if ( StrEquals (str,*iter, IgnoreCase) == true ) { return true; } } break; default: return false; } return false; } /************************************************************************* * linearization code *************************************************************************/ void CompoundExpression::linearize(LinearizedExpression& e) const { e._tokens.push_back(LinearizedExpression::EXPR_COMP) ; e._ints.push_back(Op) ; Lexp->linearize(e) ; Rexp->linearize(e) ; } void StringExpression::linearize(LinearizedExpression& e) const { e._ints.push_back(Op) ; e._ints.push_back(IgnoreCase) ; e._ints.push_back(terms.size()) ; for(std::list::const_iterator it(terms.begin());it!=terms.end();++it) e._strings.push_back(*it) ; } Expression *LinearizedExpression::toExpr(const LinearizedExpression& e) { int i=0,j=0,k=0 ; return toExpr(e,i,j,k) ; } void LinearizedExpression::readStringExpr(const LinearizedExpression& e,int& n_ints,int& n_strings,std::list& strings,bool& b,StringOperator& op) { op = static_cast(e._ints[n_ints++]) ; b = e._ints[n_ints++] ; int n = e._ints[n_ints++] ; strings.clear() ; for(int i=0;i(e._tokens[n_tok++]) ; switch(tok) { case EXPR_COMP: { LogicalOperator op = static_cast(e._ints[n_ints++]) ; Expression *e1 = toExpr(e,n_tok,n_ints,n_strings) ; Expression *e2 = toExpr(e,n_tok,n_ints,n_strings) ; return new CompoundExpression(op,e1,e2) ; } case EXPR_POP: { RelOperator op = static_cast(e._ints[n_ints++]) ; int lv = e._ints[n_ints++] ; int hv = e._ints[n_ints++] ; return new PopExpression(op,lv,hv) ; } case EXPR_SIZE: { RelOperator op = static_cast(e._ints[n_ints++]) ; int lv = e._ints[n_ints++] ; int hv = e._ints[n_ints++] ; return new SizeExpression(op,lv,hv) ; } case EXPR_DATE: { RelOperator op = static_cast(e._ints[n_ints++]) ; int lv = e._ints[n_ints++] ; int hv = e._ints[n_ints++] ; return new DateExpression(op,lv,hv) ; } case EXPR_HASH: { std::list strings ; StringOperator op ; bool b ; readStringExpr(e,n_ints,n_strings,strings,b,op) ; return new HashExpression(op,strings) ; } case EXPR_EXT: { std::list strings ; StringOperator op ; bool b ; readStringExpr(e,n_ints,n_strings,strings,b,op) ; return new ExtExpression(op,strings,b) ; } case EXPR_PATH: { std::list strings ; StringOperator op ; bool b ; readStringExpr(e,n_ints,n_strings,strings,b,op) ; return new ExtExpression(op,strings,b) ; } case EXPR_NAME: { std::list strings ; StringOperator op ; bool b ; readStringExpr(e,n_ints,n_strings,strings,b,op) ; return new NameExpression(op,strings,b) ; } default: std::cerr << "No expression match the current value " << tok << std::endl ; return NULL ; } }