// This file is part of The New Aspell
// Copyright (C) 2002 by Christoph Hintermller under the GNU LGPL license
// version 2.0 or 2.1.  You should have received a copy of the LGPL
// license along with this library if you did not you can find
// it at http://www.gnu.org/.
//
// Example for a filter implementation usable via extended filter library
// interface.
// This was added to Aspell by Christoph Hintermller

#include "settings.h"

#include "can_have_error.hpp"
#include "config.hpp"
#include "filter_char.hpp"
#include "indiv_filter.hpp"
#include "iostream.hpp"
#include "posib_err.hpp"
#include "stack_ptr.hpp"
#include "string.hpp"
#include "string_enumeration.hpp"
#include "string_list.hpp"
#include "vector.hpp"

using namespace acommon;

namespace {

  enum filterstate {hidden=0, visible=1};
  
  class ContextFilter : public IndividualFilter {
    filterstate state;
    Vector<String> opening;
    Vector<String> closing;
    int correspond;
    String filterversion;
  
    PosibErr<bool> hidecode(FilterChar * begin,FilterChar * end);
  public:
    ContextFilter(void);
    virtual void reset(void);
    void process(FilterChar *& start,FilterChar *& stop);
    virtual PosibErr<bool> setup(Config * config);
    virtual ~ContextFilter();
  };

  ContextFilter::ContextFilter(void)
  : opening(),
    closing()
  {
    state=hidden;
    correspond=-1;
    opening.resize(3);
    opening[0]="\"";
    opening[1]="/*";
    opening[2]="//";
    closing.resize(3);
    closing[0]="\"";
    closing[1]="*/";
    closing[2]="";
    filterversion=VERSION;
  }
    
  PosibErr<bool> ContextFilter::setup(Config * config){
    name_ = "context-filter";
    StringList delimiters;
    StackPtr<StringEnumeration> delimiterpairs;
    const char * delimiterpair=NULL;
    char * repair=NULL;
    char * begin=NULL;
    char * end=NULL;
    String delimiter;
    unsigned int countdelim=0;
  
    if (config == NULL) {
      fprintf(stderr,"Nothing to be configured\n");
      return true;
    }

    if (config->retrieve_bool("f-context-visible-first")) {
      state=visible;
    }

    config->retrieve_list("f-context-delimiters", &delimiters);
    delimiterpairs.reset(delimiters.elements());
    opening.resize(0);
    closing.resize(0);
    while ((delimiterpair=delimiterpairs->next())) {
      if ((begin=repair=strdup(delimiterpair)) == NULL) {
        //fprintf(stderr,"ifailed to initialise %s filter\n",filter_name());
        return false;
      }
      end=repair+strlen(repair);
      while ((*begin != ' ') && (*begin != '\t') && (begin != end)) {
        begin++;
      }
      if (begin == repair) {
        fprintf(stderr,"no delimiter pair: `%s'\n",repair);
        free(repair);
//FIXME replace someday by make_err
        //fprintf(stderr,"ifailed to initialise %s filter\n",filter_name());
        return false;
      }
      if (((*begin == ' ') || (*begin == '\t')) && (begin != end)) {
        *begin='\0';
        opening.resize(opening.size()+1);
        opening[opening.size()-1]=repair;
        begin++;
      }
      while (((*begin == ' ') || (*begin == '\t')) && (begin != end)) {
        begin++;
      }
      if ((*begin != ' ') && (*begin != '\t') && (begin != end)) {
        closing.resize(closing.size()+1);
        if (strcmp(begin,"\\0") != 0) {
          closing[closing.size()-1]=begin;
        }
        else {
          closing[closing.size()-1]="";
        }
      }
      else {
        closing.resize(closing.size()+1);
        closing[closing.size()-1]="";
      }
      free(repair);
    }
    if (state == visible) {
      for (countdelim=0;(countdelim < opening.size()) &&
                        (countdelim < closing.size());countdelim++) {
        delimiter=opening[countdelim];
        opening[countdelim]=closing[countdelim];
        closing[countdelim]=delimiter;
      }
    }
    //fprintf(stderr,"%s filter initialised\n",filter_name());
    return true;
  } 
    
  
  void ContextFilter::process(FilterChar *& start,FilterChar *& stop) {
    FilterChar * current=start-1;
    FilterChar * beginblind=start;
    FilterChar * endblind=stop;
    FilterChar * localstop=stop;
    int countmasking=0;
    int countdelimit=0;
    int matchdelim=0;

    if ((localstop > start+1) && (*(localstop-1) == '\0')) {
      localstop--;
      endblind=localstop;
    }
    if (state == visible) {
      beginblind=endblind;
    }
    while (( ++current < localstop) && (*current != '\0')) {
      if (*current == '\\') {
        countmasking++;
        continue;
      }
      if (state == visible) {
        if ((countmasking % 2 == 0) && (correspond < 0)) {
          for (countdelimit=0;
               countdelimit < (signed)closing.size();countdelimit++) {
            for (matchdelim=0; 
                 (current+closing[countdelimit].size() < localstop) &&
                 (matchdelim < (signed)closing[countdelimit].size());
                 matchdelim++){
//FIXME Warning about comparison of signed and unsigned in following line
              if (current[matchdelim] != closing[countdelimit][matchdelim]) {
                break;
              }
            }
            if ((matchdelim == (signed) closing[countdelimit].size()) &&
                closing[countdelimit].size()) {
              correspond=countdelimit;
              break;
            }
          }
        }
        if ((countmasking % 2 == 0) && (correspond >= 0) &&
           (correspond < (signed)closing.size()) &&
           (closing[correspond].size() > 0) &&
           (current+closing[correspond].size() < localstop)) {
          for (matchdelim=0;matchdelim < (signed)closing[correspond].size();
               matchdelim++) {
//FIXME Warning about comparison of signed and unsigned in following line
            if (current[matchdelim] != closing[correspond][matchdelim]) {
              break;
            }
          }
          if ((matchdelim == (signed) closing[correspond].size()) &&
              closing[correspond].size()) {
            beginblind=current;
            endblind=localstop;
            state=hidden;
            correspond=-1;
          }
        }
        countmasking=0;
        continue;
      }
      if (countmasking % 2) {
        countmasking=0;
        continue;
      }
      countmasking=0;
      for (countdelimit=0;countdelimit < (signed)opening.size();countdelimit++) {
        for (matchdelim=0;(current+opening[countdelimit].size() < localstop) &&
                          (matchdelim < (signed)opening[countdelimit].size());
             matchdelim++) {
//FIXME Warning about comparison of signed and unsigned in following line
          if (current[matchdelim] != opening[countdelimit][matchdelim]) {
            break;
          }
        }
        if ((matchdelim == (signed) opening[countdelimit].size()) &&
            opening[countdelimit].size()) {
          endblind=current+opening[countdelimit].size();
          state=visible;
          hidecode(beginblind,endblind);
          current=endblind-1;
          beginblind=endblind=localstop;
          correspond=countdelimit;
          break;
        }
      }
    }
    if ((state == visible) &&
        (correspond >= 0) && (correspond < (signed)closing.size()) &&
        (closing[correspond] == "") && (countmasking % 2 == 0)) {
      state=hidden;
      correspond=-1;
    } 
    
    if (beginblind < endblind) {
      hidecode(beginblind,endblind);
    }
  }
  
  PosibErr<bool> ContextFilter::hidecode(FilterChar * begin,FilterChar * end) {
  //FIXME here we go, a more efficient context hiding blinding might be used :)
    FilterChar * current=begin;
    while (current < end) {
      if ((*current != '\t') && (*current != '\n') && (*current != '\r')) {
        *current=' ';
      }
      current++;
    }
    return true;
  }
        
  void ContextFilter::reset(void) {
    opening.resize(0);
    closing.resize(0);
    state=hidden;
  }

  ContextFilter::~ContextFilter() {
    reset();
  }
}

C_EXPORT 
IndividualFilter * new_aspell_context_filter() {
  return new ContextFilter;                                
}