void Concordance::print(int wordIndent, int lineLength)
{
std::cout << "CONCORDANCE TABLE" << std::endl << std::endl;
WordTable::WordList listOfWords;
listOfWords = table.index();
// Iterate through all the words in listOfWords and call a table.getOccurrences(word) on each one to
// get the OccurrenceList then call getContext() on each occurrence and print the wordOccurrence and its context out
std::vector<std::string>::iterator wordIter = listOfWords.begin();
while(wordIter != listOfWords.end())
{
const WordTable::OccurrenceList& occurList = table.getOccurrences(*wordIter);
// occurList is a reference to a vector<std::streampos>. iterate through this vector, getting the context of each
// occurrence
std::vector<std::streampos>::const_iterator occurrenceIterator = occurList.begin();
while(occurrenceIterator != occurList.end())
{
//get the context of each occurrence and print it out
std::string wordString = *wordIter;
// for now we'll *assume* we need to make a wordOccurrence to pass to
// getContext since we only get streamposes from an occurrenceList
WordOccurrence tempWord(wordString,*occurrenceIterator);
//get the word's context
StringPair contextStrings = wordStream.getContext(tempWord,wordIndent,lineLength-wordString.length()-wordIndent-2);
//print the word's prefix...
//difference between how many chars in prefix & the desired amount
int prefixDiff = wordIndent - contextStrings.first.length();
while(prefixDiff > 0){ //padding spaces if required
std::cout << " ";
prefixDiff--;
}
std::cout << contextStrings.first << "|" << wordString << "|" << contextStrings.second << std::endl;
//std::cout << lineLength-wordString.length()-wordIndent-2<< std::endl;
++occurrenceIterator;
}
++wordIter;
std::cout << std::endl; //blank line between each word
}
}
int main(int argc, const char * argv[]) {
try {
setlocale(LC_ALL, "");
std::locale loc;
wordMap words;
// Define vars
std::string filename = "Erlrouter.txt";
char tempChar(0);
std::string tempWord("");
int lineCounter(1);
// Open file
std::ifstream book(filename.c_str());
if(!book.is_open()) throw std::runtime_error("Die Datei \"" + filename + "\" konnte nicht geöffnet werden!");
/* Get line || get word
std::string line("");
std::istream_iterator<std::string> iiter(book);
std::istream_iterator<std::string> eos;
for(int i = 0;i<=2;++i)
std::cout << *iiter++ << std::endl; // Read word
getline(book, line);
std::cout << line << std::endl;
*/
// Go through file and read in char-by-char
do {
tempChar = book.get();
if(tempChar == '\n') lineCounter++;
if(isspace(tempChar, loc)) {
// Write word
if(tempWord.length() > 0) {
if(isNomen(tempWord)) {
// We have a nomen!
addWordToMap(words, *new Nomen(tempWord, lineCounter));
} else if(isAkronym(tempWord)) {
// We have an acronym!
addWordToMap(words, *new Akronym(tempWord, lineCounter));
}
}
tempWord = "";
} else if(isalpha(tempChar, loc)) {
tempWord = tempWord + tempChar;
}
} while(book.good());
book.close(); // Close file
printMap(words);
// Write to Index.txt
std::string outputFilename("Index.txt");
std::ofstream index(outputFilename.c_str());
writeMap(words, index);
return 0;
} catch(std::exception &e) {
std::cerr << e.what() << std::endl;
} catch(...) {
std::cerr << "Ein unbekannter Fehler trat auf." << std::endl;
}
}
