void test_add_all_get_count()
{
std::cout << "test: add all words then get count of random words" << std::endl;
std::vector<std::string> words = getWordList("data/28885.txt");
std::ofstream out("data/28885.txt.out" + OUT_FILE);
std::random_device rd;
std::default_random_engine rand(rd());
TRENDS_CLASS tr;
for (unsigned int i = 0; i < words.size(); i++){
tr.increaseCount(words[i], 1);
}
double start = getTimeInMillis();
for (unsigned int i = 0; i < words.size(); i++) {
std::string w = words[rand() % words.size()];
unsigned int temp = tr.getCount(w);
out << w << " " << temp << "\n";
}
double end = getTimeInMillis();
out.close();
std::cout << "time per item: " << (end - start) / words.size() << " ms " << std::endl
<< "total time: " << (end - start) << " ms" << std::endl << std::endl;
}
void test_hardest(void)
{
std::cout << "test: add all words, get a random nth popular word, increase that "
<< "words count by 1 then get the most common word along with its count" << std::endl;
std::vector<std::string> words = getWordList("data/28885.txt");
std::random_device rd;
std::default_random_engine rand(rd());
TRENDS_CLASS tr;
for (unsigned int i = 0; i < words.size(); i++){
tr.increaseCount(words[i], 1);
}
double start = getTimeInMillis();
for (unsigned int i = 0; i < words.size(); i++) {
unsigned int temp = rand() % tr.numEntries();
std::string word = tr.getNthPopular(temp);
tr.increaseCount(word, 1);
word = tr.getNthPopular(0);
temp = tr.getCount(word);
}
double end = getTimeInMillis();
std::cout << "time per item: " << (end - start) / words.size() << " ms " << std::endl
<< "total time: " << (end - start) << " ms" << std::endl << std::endl;
}
void test_print_words_in_order_with_count(void)
{
std::cout << "test: add all words then print them in order with word count" << std::endl;
std::vector<std::string> words = getWordList("data/28885.txt");
std::ofstream out("data/28885.txt.out" + OUT_FILE);
TRENDS_CLASS tr;
for(unsigned int i = 0; i < words.size(); i++) {
tr.increaseCount(words[i], 1);
}
double start = getTimeInMillis();
for(unsigned int i = 0; i < tr.numEntries(); i++) {
std::string word = tr.getNthPopular(i);
out << tr.getCount(word) << " " << word << "\n";
}
double end = getTimeInMillis();
out.close();
std::cout << "time per item: " << (end - start) / words.size() << " ms " << std::endl
<< "total time: " << (end - start) << " ms" << std::endl << std::endl;
}
void test_add_all_increment_get_pop(void)
{
std::cout << "test: add all words then increment every word by 1 then get the most "
<< "popular word" << std::endl;
std::vector<std::string> words = getWordList("data/28885.txt");
std::ofstream out("data/28885.txt.out" + OUT_FILE);
TRENDS_CLASS tr;
for (unsigned int i = 0; i < words.size(); i++){
tr.increaseCount(words[i], 1);
}
double start = getTimeInMillis();
for (unsigned int i = 0; i < words.size(); i++) {
tr.increaseCount(words[i], 1);
std::string pop = tr.getNthPopular(0);
out << pop << "\n";
}
double end = getTimeInMillis();
out.close();
std::cout << "time per item: " << (end - start) / words.size() << " ms " << std::endl
<< "total time: " << (end - start) << " ms" << std::endl << std::endl;
}
/**
* This tests a simple (but unlikely) use case, which is to read in all the data, and then print out the data in sorted order
* based on popularity.
*
* Compare your 28885.txt.out to 28885_txt.out, using diff,s to see if your code is producing correct output.
*/
double useCase_addAllThenGetInOrder(){
Trends* tr = new smarterTrends(); //You will need to change this to match your own class!
std::vector<std::string> wordlist = getWordList("data/28885.txt");
//We only want to time how long addToTrends takes, so we get
// the starting time, which is the clock time, in milliseconds
double start = getTimeInMillis();
//Now add all the words to the Trends data structure
for(unsigned int i=0; i<wordlist.size(); i++){
tr->increaseCount(wordlist[i],1);
}
//Now get the end time
double end = getTimeInMillis();
std::cout << "increaseCount time: " << (end-start)/wordlist.size() << " ms per word" << std::endl;
//Now we will print out the complete results. This could be REALLY clow, if
// your getNthPopular is not a little bit smart.
std::string outfname = "data/28885.txt.out";
std::ofstream out(outfname.c_str());
start = getTimeInMillis();
for(unsigned int i=0; i< tr->numEntries(); i++){
std::string s = tr->getNthPopular(i);
out << tr->getCount(s) << ": " << s << std::endl;
}
out.close();
end = getTimeInMillis();
std::cout << "getNth followed by getCount, time: " << (end - start) / tr->numEntries() << " ms per entry" << std::endl;
delete tr;
return end - start;
}
void test_adding(void)
{
std::cout << "test: add all words" << std::endl;
std::vector<std::string> words = getWordList("data/28885.txt");
TRENDS_CLASS tr;
double start = getTimeInMillis();
for(unsigned int i = 0; i < words.size(); i++){
tr.increaseCount(words[i], 1);
}
double end = getTimeInMillis();
std::cout << "time per item: " << (end - start) / words.size() << " ms " << std::endl
<< "total time: " << (end - start) << " ms" << std::endl << std::endl;
}
vector<vector<Word *>> Web::getRealConcept(vector<string> wordsIn)
{
int realWordIdx;
vector<vector<Word *>> realWordSet, possibleWords = getWordList(wordsIn);
vector<Node *> conceptsPresent = getConceptsInWordList(possibleWords);
for(int i = 0; i < possibleWords.size(); i++)
{
realWordSet.push_back(vector<Word *>());
for(int j = 0; j < possibleWords[i].size(); j++)
{
for(int k = 0; k < possibleWords[i][j]->getConcept()->getNumReqGrp(); k++)
{
if(haveReqs(possibleWords[i][j]->getConcept()->getReqGrp(k)->getReqPtr(), conceptsPresent) == true)
{
realWordSet[i].push_back(possibleWords[i][j]);
break;
}
}
}
}
return realWordSet;
}
void test_add_get_count_of_word(void)
{
std::cout << "test: add a word then get the count of that word" << std::endl;
std::vector<std::string> words = getWordList("data/28885.txt");
std::ofstream out("data/28885.txt.out" + OUT_FILE);
TRENDS_CLASS tr;
double start = getTimeInMillis();
for(unsigned int i = 0; i < words.size(); i++){
tr.increaseCount(words[i], 1);
unsigned int value = tr.getCount(words[i]);
out << words[i] << " " << value << "\n";
}
double end = getTimeInMillis();
out.close();
std::cout << "time per item: " << (end - start) / words.size() << " ms " << std::endl
<< "total time: " << (end - start) << " ms" << std::endl << std::endl;
}
/**
* This can either be a basis for a member function of some class or static function or whatever...
*/
xxxx xxxx::readSongsFromFile(std::string songsFileName)
{
std::ifstream instream(songsFileName.c_str());
if (!instream.is_open())
{
std::cerr << "Error! Can't open file: " << songsFileName << "." << std::endl;
}
std::string line = "";
int lastSong = 0;
while(instream.good() && !lastSong)
{
if (line.compare(SEPARATOR) != 0)
{
getline(instream, line);
// Expect a line of "="
if (END_OF_SONGS.compare(line) == 0)
{
lastSong = 1;
break;
}
}
getline(instream, line);
// Expect a line of "title: ..."
size_t pos = TITLE.size() + 2;
std::string title = line.substr(pos);
getline(instream, line);
// Expect a line of "tags: {...}"
std::string tags = getWordList(line);
std::string lyrics = "";
std::string lyricsBy = "";
std::string instruments = "";
std::string performedBy = "";
std::string bpmStr = "";
getline(instream, line);
// Expect either lyrics or instruments.
if (line.substr(0, LYRICS.size()).compare(LYRICS) == 0)
{
// Then we have a lyric song
// Lets get the lyrics:
lyrics = getWordList(line);
// Lets get the lyricsBy:
getline(instream, line);
pos = LYRICS_BY.size() + 2;
lyricsBy = line.substr(pos);
// TODO....
}
else
{
// Then we have an instrumental song
// Lets get the instruments:
instruments = getWordList(line);
// Lets get the performedBy:
getline(instream, line);
pos = PERFORMED_BY.size() + 2;
performedBy = line.substr(pos);
// Lets see if we have bpm:
if (!instream.good())
{
break;
}
getline(instream, line);
if (END_OF_SONGS.compare(line) == 0)
{
lastSong = 1;
}
if (line.substr(0, BPM.size()).compare(BPM) == 0)
{
pos = BPM.size() + 2;
bpmStr = line.substr(pos);
// TODO....
}
else
{
assert ( (line.compare(SEPARATOR) == 0) || (line.compare(END_OF_SONGS) == 0));
// TODO....
}
}
}
instream.close();
// return something
}
int main() {
int counter = 0, orig_words_len = 0, i;
char orig_words[LEXICON_LEN][MAX_STR];
// Initialize orig_words
for (counter=0;counter<LEXICON_LEN;counter++)
orig_words[counter][0] = '\0';
puts(" GET WORDS ");
getWordList(orig_words);
puts(" GOT 'EM ");
for (counter=0;counter<LEXICON_LEN;counter++)
{ if (orig_words[counter][0] == '\0')
{ orig_words_len = counter;
break;
}
}
// Initialize original lexicon
short lexicon[orig_words_len][WORD_LEN];
for (i=0;i<orig_words_len;i++)
{ letterCount(orig_words[i], lexicon[i]);
lexicon[i][END] = i;
}
// Initialize input
short inpt[WORD_LEN];
const char *inpt_str = "wellpunchmeinthefac";
letterCount(inpt_str, inpt);
// Create Original Lexicon Queue...
/* Add to orig_lex the index of the
words that could possibly be spelled with the
letters in the input. This list will be
passed to the finding function */
lexiptr orig_lex;
for (i=0;i<orig_words_len;i++)
if (wordCheck(inpt, lexicon[i]))
PushQ(&orig_lex, i);
// Initialize results
short temp_results[SINGLE_RESULT];
for (i=0;i<SINGLE_RESULT;i++)
temp_results[i] = -1;
short results[MAX_RESULTS][SINGLE_RESULT];
for (counter=0;counter<MAX_RESULTS;counter++)
for (i=0;i<SINGLE_RESULT;i++)
results[counter][i] = -1;
/* Current Variables:
char orig_words[][30], short lexicon[][27], short inpt[],
short temp_results[], short results[][15], next_result */
puts(" GO! ");
printf("Start = %d\n", time(NULL));
MainLoop(lexicon, inpt, temp_results, results, 0, orig_lex, orig_words);
printf("Finish = %d, %i results found.\n", time(NULL), COUNT_RESULTS);
for (counter=0;counter<50;counter++)
{ if (results[counter][0] == -1) continue;
for (i=0;i<SINGLE_RESULT;i++)
if (results[counter][i] != -1)
printf("%s ", orig_words[results[counter][i]]);
puts("");
}
return 1;
}
