filter_parser.hpp

/*****************************************************************************
 * 
 * This file is part of Mapnik (c++ mapping toolkit)
 *
 * Copyright (C) 2006 Artem Pavlenko
 *
 * This library is free software; you can redistribute it and/or
 * modify it under the terms of the GNU Lesser General Public
 * License as published by the Free Software Foundation; either
 * version 2.1 of the License, or (at your option) any later version.
 *
 * 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
 * Lesser General Public License for more details.
 *
 * You should have received a copy of the GNU Lesser General Public
 * License along with this library; if not, write to the Free Software
 * Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA  02110-1301  USA
 *
 *****************************************************************************/


//$Id$

#ifndef FILTER_PARSER_HPP
#define FILTER_PARSER_HPP
// mapnik
#include <mapnik/value.hpp>
#include <mapnik/unicode.hpp>
#include <mapnik/comparison.hpp>
#include <mapnik/math_expr.hpp>
#include <mapnik/expression.hpp>
#include <mapnik/filter.hpp>
#include <mapnik/regex_filter.hpp>
#include <mapnik/boolean_filter.hpp>
#include <mapnik/logical.hpp>

// boost
#ifdef MAPNIK_DEBUG
#define BOOST_SPIRIT_DEBUG
#endif

#include <boost/shared_ptr.hpp>
#include <boost/spirit/core.hpp>
#include <boost/spirit/symbols.hpp>
#include <boost/spirit/utility/confix.hpp>
#include <boost/spirit/utility/escape_char.hpp>
#include <boost/spirit/utility/chset.hpp> 

// stl
#include <stack>
#include <iostream>

using namespace boost::spirit;
using boost::shared_ptr;

namespace mapnik
{    
   using std::string;
   using std::clog;
   using std::stack;

    template <typename FeatureT>
    struct push_boolean
    {
        push_boolean(stack<shared_ptr<expression<FeatureT> > >& exprs)
            : exprs_(exprs) {}
	
        void operator() (std::string const& val) const
        {
            if (val == "true")
                exprs_.push(shared_ptr<expression<FeatureT> >
                            ( new literal<FeatureT>(true)));
            else if (val == "false")
                exprs_.push(shared_ptr<expression<FeatureT> >
                            ( new literal<FeatureT>(false)));
        }
        stack<shared_ptr<expression<FeatureT> > >& exprs_;
    };

   template <typename FeatureT>
   struct push_integer
   {
         push_integer(stack<shared_ptr<expression<FeatureT> > >& exprs)
            : exprs_(exprs) {}
	
         void operator() (int val) const
         {
            exprs_.push(shared_ptr<expression<FeatureT> >
                        ( new literal<FeatureT>(val)));
         }
         stack<shared_ptr<expression<FeatureT> > >& exprs_;
   };
   
   template <typename FeatureT>
   struct push_real
   {
         push_real(stack<shared_ptr<expression<FeatureT> > >& exprs)
            : exprs_(exprs) {}
         void operator() (double val) const
         {
            exprs_.push(shared_ptr<expression<FeatureT> >(new literal<FeatureT>(val)));
         }
         stack<shared_ptr<expression<FeatureT> > >& exprs_;
   };
    
   template <typename FeatureT>
   struct push_string
   {
         push_string(stack<shared_ptr<expression<FeatureT> > >& exprs, transcoder const& tr)
            : exprs_(exprs),
              tr_(tr) {}
         
         template <typename Iter>
         void operator() (Iter start,Iter end) const
         {
            UnicodeString unicode = tr_.transcode(std::string(start,end).c_str());
            exprs_.push(shared_ptr<expression<FeatureT> >(new literal<FeatureT>(unicode)));
         }
         stack<shared_ptr<expression<FeatureT> > >& exprs_;
         transcoder const& tr_;
   };
    
   template <typename FeatureT>
   struct push_property
   {
         push_property(stack<shared_ptr<expression<FeatureT> > >& exprs)
            : exprs_(exprs) {}
	
         template <typename Iter>
         void operator() (Iter start,Iter end) const
         {
            string str(start,end);
            exprs_.push(shared_ptr<expression<FeatureT> >(new property<FeatureT>(str)));
         }
         stack<shared_ptr<expression<FeatureT> > >& exprs_;
   };

   template <typename FeatureT,typename Op>
   struct compose_expression
   {
         compose_expression(stack<shared_ptr<expression<FeatureT> > >& exprs)
            : exprs_(exprs) {}

         template <typename Iter>
         void operator() (Iter,Iter) const
         {
            if (exprs_.size()>=2)
            {
               shared_ptr<expression<FeatureT> > right = exprs_.top();
               exprs_.pop();
               shared_ptr<expression<FeatureT> > left = exprs_.top();
               exprs_.pop();
               if (left && right)
               {
                  exprs_.push(shared_ptr<expression<FeatureT> >
                              (new mapnik::math_expr_b<FeatureT,Op>(*left,*right)));
               }
            }
         }
         stack<shared_ptr<expression<FeatureT> > >& exprs_;
   };
    
   template <typename FeatureT>
   struct compose_regex
   {
         compose_regex(stack<shared_ptr<filter<FeatureT> > >& filters,
                       stack<shared_ptr<expression<FeatureT> > >& exprs)
            : filters_(filters),exprs_(exprs) {}

         template <typename Iter>
         void operator() (Iter start,Iter end) const
         {
            if (exprs_.size()>=1)
            {
               shared_ptr<expression<FeatureT> > exp = exprs_.top();
               exprs_.pop();
               if (exp)
               {		    
                  std::string pattern(start,end);
                  try 
                  {
                     filters_.push(shared_ptr<filter<FeatureT> >
                                   (new regex_filter<FeatureT>(*exp,pattern)));
                  }
                  catch (...)//boost::regex_error& ex)
                  {
                     clog<<"error\n";//ex.what()<<"\n";
                  }
		    
               }
            }
         }
         stack<shared_ptr<filter<FeatureT> > >& filters_;
         stack<shared_ptr<expression<FeatureT> > >& exprs_;
   };

  
   template <typename FeatureT,typename Op>
   struct compose_filter
   {
         compose_filter(stack<shared_ptr<filter<FeatureT> > >& filters,
                        stack<shared_ptr<expression<FeatureT> > >& exprs)
            : filters_(filters),exprs_(exprs) {}

         template <typename Iter>
         void operator() (Iter,Iter) const
         {
            if (exprs_.size()>=2)
            {
               shared_ptr<expression<FeatureT> > right = exprs_.top();
               exprs_.pop();
               shared_ptr<expression<FeatureT> > left = exprs_.top();
               exprs_.pop();
               if (left && right)
               {
                  filters_.push(shared_ptr<filter<FeatureT> >(new compare_filter<FeatureT,Op>(*left,*right)));
               }
            }
         }
         stack<shared_ptr<filter<FeatureT> > >& filters_;
         stack<shared_ptr<expression<FeatureT> > >& exprs_;
   };
      
   template <typename FeatureT>
   struct compose_boolean_filter
   {
         compose_boolean_filter(stack<shared_ptr<filter<FeatureT> > >& filters,
                                stack<shared_ptr<expression<FeatureT> > >& exprs)
            : filters_(filters),exprs_(exprs) {}

         template <typename Iter>
         void operator() (Iter,Iter) const
         {
            if (exprs_.size()>=1)
            {
               shared_ptr<expression<FeatureT> > exp = exprs_.top();
               exprs_.pop();
               if (exp)
               {
                  filters_.push(shared_ptr<filter<FeatureT> >(new boolean_filter<FeatureT>(*exp)));
               }
            }
         }
         stack<shared_ptr<filter<FeatureT> > >& filters_;
         stack<shared_ptr<expression<FeatureT> > >& exprs_;
   };

   template <typename FeatureT>
   struct compose_and_filter
   {
         compose_and_filter(stack<shared_ptr<filter<FeatureT> > >& filters)
            : filters_(filters) {}

         template <typename Iter>
         void operator() (Iter,Iter) const
         {
            if (filters_.size()>=2)
            {
               shared_ptr<filter<FeatureT> > right = filters_.top();
               filters_.pop();
               shared_ptr<filter<FeatureT> > left = filters_.top();
               filters_.pop();
               if (left && right)
               {
                  filters_.push(shared_ptr<filter<FeatureT> >
                                (new logical_and<FeatureT>(*left,*right)));
               }
            }
         }
         stack<shared_ptr<filter<FeatureT> > >& filters_;
   };
    
   template <typename FeatureT>
   struct compose_or_filter
   {
         compose_or_filter(stack<shared_ptr<filter<FeatureT> > >& filters)
            : filters_(filters) {}

         template <typename Iter>
         void operator() (Iter,Iter) const
         {
            if (filters_.size()>=2)
            {
               shared_ptr<filter<FeatureT> > right = filters_.top();
               filters_.pop();
               shared_ptr<filter<FeatureT> > left = filters_.top();
               filters_.pop();
               if (left && right)
               {
                  filters_.push(shared_ptr<filter<FeatureT> >
                                (new logical_or<FeatureT>(*left,*right)));
               }
            }
         }
         stack<shared_ptr<filter<FeatureT> > >& filters_;
   };
    
   template <typename FeatureT>
   struct compose_not_filter
   {
         compose_not_filter(stack<shared_ptr<filter<FeatureT> > >& filters)
            : filters_(filters) {}

         template <typename Iter>
         void operator() (Iter,Iter) const
         {
            if (filters_.size()>=1)
            {
               shared_ptr<filter<FeatureT> > filter_ = filters_.top();
               filters_.pop();
               if (filter_)
               {
                  filters_.push(shared_ptr<filter<FeatureT> >(new logical_not<FeatureT>(*filter_)));
               }
            }
         }
         stack<shared_ptr<filter<FeatureT> > >& filters_;
   };
    
   template <typename FeatureT>
   struct filter_grammar : public grammar<filter_grammar<FeatureT> >
   {
         filter_grammar(stack<shared_ptr<filter<FeatureT> > >& filters_,
                        stack<shared_ptr<expression<FeatureT> > >& exprs_,
                        transcoder const& tr_)
            : filters(filters_),
              exprs(exprs_),
              tr(tr_) {}
         
         template <typename ScannerT>
         struct definition
         {
               definition(filter_grammar const& self)
               {	
                  typedef boost::spirit::chset<wchar_t> chset_t;

                  func1_op = "sqrt","sin","cos";
                  func2_op = "min","max";
                  spatial_op = "Equals","Disjoint","Touches","Within","Overlaps",
                     "Crosses","Intersects","Contains","DWithin","Beyond","BBOX";
                  boolean_const = "true","false";

                  chset_t BaseChar (L"\x41-\x5A\x61-\x7A\xC0-\xD6\xD8-\xF6\xF8-\xFF\x100-\x131\x134-\x13E"
                                    L"\x141-\x148\x14A-\x17E\x180-\x1C3\x1CD-\x1F0\x1F4-\x1F5\x1FA-\x217"
                                    L"\x250-\x2A8\x2BB-\x2C1\x386\x388-\x38A\x38C\x38E-\x3A1\x3A3-\x3CE"
                                    L"\x3D0-\x3D6\x3DA\x3DC\x3DE\x3E0\x3E2-\x3F3\x401-\x40C\x40E-\x44F"
                                    L"\x451-\x45C\x45E-\x481\x490-\x4C4\x4C7-\x4C8\x4CB-\x4CC\x4D0-\x4EB"
                                    L"\x4EE-\x4F5\x4F8-\x4F9\x531-\x556\x559\x561-\x586\x5D0-\x5EA"
                                    L"\x5F0-\x5F2\x621-\x63A\x641-\x64A\x671-\x6B7\x6BA-\x6BE\x6C0-\x6CE"
                                    L"\x6D0-\x6D3\x6D5\x6E5-\x6E6\x905-\x939\x93D\x958-\x961\x985-\x98C"
                                    L"\x98F-\x990\x993-\x9A8\x9AA-\x9B0\x9B2\x9B6-\x9B9\x9DC-\x9DD"
                                    L"\x9DF-\x9E1\x9F0-\x9F1\xA05-\xA0A\xA0F-\xA10\xA13-\xA28\xA2A-\xA30"
                                    L"\xA32-\xA33\xA35-\xA36\xA38-\xA39\xA59-\xA5C\xA5E\xA72-\xA74"
                                    L"\xA85-\xA8B\xA8D\xA8F-\xA91\xA93-\xAA8\xAAA-\xAB0\xAB2-\xAB3"
                                    L"\xAB5-\xAB9\xABD\xAE0\xB05-\xB0C\xB0F-\xB10\xB13-\xB28\xB2A-\xB30"
                                    L"\xB32-\xB33\xB36-\xB39\xB3D\xB5C-\xB5D\xB5F-\xB61\xB85-\xB8A"
                                    L"\xB8E-\xB90\xB92-\xB95\xB99-\xB9A\xB9C\xB9E-\xB9F\xBA3-\xBA4"
                                    L"\xBA8-\xBAA\xBAE-\xBB5\xBB7-\xBB9\xC05-\xC0C\xC0E-\xC10\xC12-\xC28"
                                    L"\xC2A-\xC33\xC35-\xC39\xC60-\xC61\xC85-\xC8C\xC8E-\xC90\xC92-\xCA8"
                                    L"\xCAA-\xCB3\xCB5-\xCB9\xCDE\xCE0-\xCE1\xD05-\xD0C\xD0E-\xD10"
                                    L"\xD12-\xD28\xD2A-\xD39\xD60-\xD61\xE01-\xE2E\xE30\xE32-\xE33"
                                    L"\xE40-\xE45\xE81-\xE82\xE84\xE87-\xE88\xE8A\xE8D\xE94-\xE97"
                                    L"\xE99-\xE9F\xEA1-\xEA3\xEA5\xEA7\xEAA-\xEAB\xEAD-\xEAE\xEB0"
                                    L"\xEB2-\xEB3\xEBD\xEC0-\xEC4\xF40-\xF47\xF49-\xF69\x10A0-\x10C5"
                                    L"\x10D0-\x10F6\x1100\x1102-\x1103\x1105-\x1107\x1109\x110B-\x110C"
                                    L"\x110E-\x1112\x113C\x113E\x1140\x114C\x114E\x1150\x1154-\x1155"
                                    L"\x1159\x115F-\x1161\x1163\x1165\x1167\x1169\x116D-\x116E"
                                    L"\x1172-\x1173\x1175\x119E\x11A8\x11AB\x11AE-\x11AF\x11B7-\x11B8"
                                    L"\x11BA\x11BC-\x11C2\x11EB\x11F0\x11F9\x1E00-\x1E9B\x1EA0-\x1EF9"
                                    L"\x1F00-\x1F15\x1F18-\x1F1D\x1F20-\x1F45\x1F48-\x1F4D\x1F50-\x1F57"
                                    L"\x1F59\x1F5B\x1F5D\x1F5F-\x1F7D\x1F80-\x1FB4\x1FB6-\x1FBC\x1FBE"
                                    L"\x1FC2-\x1FC4\x1FC6-\x1FCC\x1FD0-\x1FD3\x1FD6-\x1FDB\x1FE0-\x1FEC"
                                    L"\x1FF2-\x1FF4\x1FF6-\x1FFC\x2126\x212A-\x212B\x212E\x2180-\x2182"
                                    L"\x3041-\x3094\x30A1-\x30FA\x3105-\x312C\xAC00-\xD7A3");
            
                  chset_t Ideographic(L"\x4E00-\x9FA5\x3007\x3021-\x3029");
                  chset_t Letter = BaseChar | Ideographic;
	    
                  chset_t CombiningChar(L"\x0300-\x0345\x0360-\x0361\x0483-\x0486\x0591-\x05A1\x05A3-\x05B9"
                                        L"\x05BB-\x05BD\x05BF\x05C1-\x05C2\x05C4\x064B-\x0652\x0670"
                                        L"\x06D6-\x06DC\x06DD-\x06DF\x06E0-\x06E4\x06E7-\x06E8\x06EA-\x06ED"
                                        L"\x0901-\x0903\x093C\x093E-\x094C\x094D\x0951-\x0954\x0962-\x0963"
                                        L"\x0981-\x0983\x09BC\x09BE\x09BF\x09C0-\x09C4\x09C7-\x09C8"
                                        L"\x09CB-\x09CD\x09D7\x09E2-\x09E3\x0A02\x0A3C\x0A3E\x0A3F"
                                        L"\x0A40-\x0A42\x0A47-\x0A48\x0A4B-\x0A4D\x0A70-\x0A71\x0A81-\x0A83"
                                        L"\x0ABC\x0ABE-\x0AC5\x0AC7-\x0AC9\x0ACB-\x0ACD\x0B01-\x0B03\x0B3C"
                                        L"\x0B3E-\x0B43\x0B47-\x0B48\x0B4B-\x0B4D\x0B56-\x0B57\x0B82-\x0B83"
                                        L"\x0BBE-\x0BC2\x0BC6-\x0BC8\x0BCA-\x0BCD\x0BD7\x0C01-\x0C03"
                                        L"\x0C3E-\x0C44\x0C46-\x0C48\x0C4A-\x0C4D\x0C55-\x0C56\x0C82-\x0C83"
                                        L"\x0CBE-\x0CC4\x0CC6-\x0CC8\x0CCA-\x0CCD\x0CD5-\x0CD6\x0D02-\x0D03"
                                        L"\x0D3E-\x0D43\x0D46-\x0D48\x0D4A-\x0D4D\x0D57\x0E31\x0E34-\x0E3A"
                                        L"\x0E47-\x0E4E\x0EB1\x0EB4-\x0EB9\x0EBB-\x0EBC\x0EC8-\x0ECD"
                                        L"\x0F18-\x0F19\x0F35\x0F37\x0F39\x0F3E\x0F3F\x0F71-\x0F84"
                                        L"\x0F86-\x0F8B\x0F90-\x0F95\x0F97\x0F99-\x0FAD\x0FB1-\x0FB7\x0FB9"
                                        L"\x20D0-\x20DC\x20E1\x302A-\x302F\x3099\x309A");
	    
                  chset_t Digit(L"\x0030-\x0039\x0660-\x0669\x06F0-\x06F9\x0966-\x096F\x09E6-\x09EF"
                                L"\x0A66-\x0A6F\x0AE6-\x0AEF\x0B66-\x0B6F\x0BE7-\x0BEF\x0C66-\x0C6F"
                                L"\x0CE6-\x0CEF\x0D66-\x0D6F\x0E50-\x0E59\x0ED0-\x0ED9\x0F20-\x0F29");
		
                  chset_t Extender(L"\x00B7\x02D0\x02D1\x0387\x0640\x0E46\x0EC6\x3005\x3031-\x3035"
                                   L"\x309D-\x309E\x30FC-\x30FE");
		
                  chset_t NameChar =
                     Letter 
                     | Digit 
                     | L'.'
                     | L'-'
                     | L'_'
                     | L':'
                     | CombiningChar 
                     | Extender;
			
                  boolean = boolean_const [push_boolean<FeatureT>(self.exprs)];
	
                  number = strict_real_p [push_real<FeatureT>(self.exprs)] 
                     | int_p [push_integer<FeatureT>(self.exprs)];
		
                  string_ = confix_p(L'\'',(*lex_escape_ch_p)
                                     [push_string<FeatureT>(self.exprs,self.tr)],
                                     L'\'');

                  property = L'[' >> ( (Letter | L'_' | L':') 
                                       >> *NameChar )[push_property<FeatureT>(self.exprs)] >> L']';
		
                  literal = boolean | number | string_ | property;
		
                  function = literal | ( func1_op >> L'('>> literal >> L')') | 
                     (func2_op >> L'(' >> literal >> L','>> literal >> L')');
		
                  factor = function 
                     | L'(' >> or_expr >> L')'
                     | ( L'-' >> factor) 
                     ;
                  term = factor
                     >> *((L'*' >> factor) [compose_expression<FeatureT,mapnik::mult<value> >(self.exprs)] 
                          | (L'/' >> factor) [compose_expression<FeatureT,mapnik::div<value> >(self.exprs)]);
		
                  expression = term >> *((L'+' >> term) [compose_expression<FeatureT,mapnik::add<value> >(self.exprs)] 
                                         | (L'-' >> term) [compose_expression<FeatureT,mapnik::sub<value> >(self.exprs)]);

                  regex = str_p(L".match")>>L'('>>confix_p(L'\'',(*lex_escape_ch_p)
                                                           [compose_regex<FeatureT>(self.filters,self.exprs)],
                                                           L'\'') >>L')';

                  relation   = expression 
                     >> *((L">=" >> expression) 
                          [compose_filter<FeatureT,greater_than_or_equal<value> >(self.filters,self.exprs)]
                          | (L'>' >> expression)
                          [compose_filter<FeatureT,mapnik::greater_than<value> >(self.filters,self.exprs)]
                          | (L'<' >> expression)
                          [compose_filter<FeatureT,mapnik::less_than<value> >(self.filters,self.exprs)]
                          | (L"<=" >> expression)
                          [compose_filter<FeatureT,less_than_or_equal<value> >(self.filters,self.exprs)]
                          /*  | regex */);

                  equation = relation >> *( ( L'=' >> relation)
                                            [compose_filter<FeatureT,mapnik::equals<value> >(self.filters,self.exprs)]
                                            | ( L"<>" >> relation)
                                            [compose_filter<FeatureT,not_equals<value> >(self.filters,self.exprs)]);

                  cond_expr = equation | (expression)[compose_boolean_filter<FeatureT>(self.filters,self.exprs)];

                  not_expr = cond_expr | *(str_p(L"not") >> cond_expr)[compose_not_filter<FeatureT>(self.filters)];

                  and_expr = not_expr >> *(L"and" >> not_expr)[compose_and_filter<FeatureT>(self.filters)];

                  or_expr  = and_expr >> *(L"or" >> and_expr)[compose_or_filter<FeatureT>(self.filters)];

                  filter_statement = or_expr >> *(space_p) >> end_p;	

#ifdef BOOST_SPIRIT_DEBUG
                  BOOST_SPIRIT_DEBUG_RULE( factor ); 
                  BOOST_SPIRIT_DEBUG_RULE( term );
                  BOOST_SPIRIT_DEBUG_RULE( expression );
                  BOOST_SPIRIT_DEBUG_RULE( relation );
                  BOOST_SPIRIT_DEBUG_RULE( equation );
                  BOOST_SPIRIT_DEBUG_RULE( cond_expr );
                  BOOST_SPIRIT_DEBUG_RULE( not_expr );
                  BOOST_SPIRIT_DEBUG_RULE( and_expr );
                  BOOST_SPIRIT_DEBUG_RULE( or_expr );

                  BOOST_SPIRIT_DEBUG_RULE( filter_statement );   
                  BOOST_SPIRIT_DEBUG_RULE( literal );
                  BOOST_SPIRIT_DEBUG_RULE( boolean );
                  BOOST_SPIRIT_DEBUG_RULE( number );
                  BOOST_SPIRIT_DEBUG_RULE( string_ );
                  BOOST_SPIRIT_DEBUG_RULE( property );
                  BOOST_SPIRIT_DEBUG_RULE( function );
                  BOOST_SPIRIT_DEBUG_RULE( regex );
#endif
               }
	    
               boost::spirit::rule<ScannerT> const& start() const
               {
                  return filter_statement;
               }
	    	    
               boost::spirit::rule<ScannerT> factor; 
               boost::spirit::rule<ScannerT> term;
               boost::spirit::rule<ScannerT> expression;
               boost::spirit::rule<ScannerT> relation;
               boost::spirit::rule<ScannerT> equation;
               boost::spirit::rule<ScannerT> cond_expr;
               boost::spirit::rule<ScannerT> not_expr;
               boost::spirit::rule<ScannerT> and_expr;
               boost::spirit::rule<ScannerT> or_expr;
              
               boost::spirit::rule<ScannerT> filter_statement;   
               boost::spirit::rule<ScannerT> literal;
               boost::spirit::rule<ScannerT> boolean;
               boost::spirit::rule<ScannerT> number;
               boost::spirit::rule<ScannerT> string_;
               boost::spirit::rule<ScannerT> property;
               boost::spirit::rule<ScannerT> function;
               boost::spirit::rule<ScannerT> regex;
               symbols<string> func1_op;
               symbols<string> func2_op;
               symbols<string> spatial_op;
               symbols<string> boolean_const;


         };
         stack<shared_ptr<filter<FeatureT> > >& filters;
         stack<shared_ptr<expression<FeatureT> > >& exprs;
         transcoder const& tr;
   };    
}

#endif //FILTER_PARSER_HPP