slightly refactored GP ending, so the final rank is only calculated once.

git-svn-id: svn+ssh://svn.code.sf.net/p/supertuxkart/code/trunk/supertuxkart@2769 178a84e3-b1eb-0310-8ba1-8eac791a3b58
This commit is contained in:
auria 2008-12-25 17:59:41 +00:00
parent 6f358f52d6
commit a2fe608ef7
5 changed files with 100 additions and 105 deletions

View File

@ -249,7 +249,7 @@ bool ChallengeData::raceFinished()
// ----------------------------------------------------------------------------
bool ChallengeData::grandPrixFinished()
{
printf("checking if GP challenge is solved");
// printf("----- checking if GP challenge is solved\n");
if (race_manager->getMajorMode() != RaceManager::MAJOR_MODE_GRAND_PRIX ||
race_manager->getMinorMode() != m_minor ||
race_manager->getGrandPrix()->getId() != m_gp_id ||
@ -259,54 +259,9 @@ bool ChallengeData::grandPrixFinished()
// check if the player came first.
Kart* kart = RaceManager::getPlayerKart(0);
const int rank = race_manager->getKartFinalGPRank(kart->getWorldKartId());
//printf("getting rank for %s : %i \n", kart->getName().c_str(), rank );
if( rank != 0 ) return false;
// FIXME - this code is duplicated from GrandPrixEnding. We should find a cleaner way to solve this.
const unsigned int NUM_KARTS = race_manager->getNumKarts();
int *scores = new int[NUM_KARTS];
int *position = new int[NUM_KARTS];
double *race_time = new double[NUM_KARTS];
// Ignore the first kart if it's a follow-the-leader race.
int start=(race_manager->getMinorMode()==RaceManager::MINOR_MODE_FOLLOW_LEADER) ? 1 : 0;
for( unsigned int kart_id = start; kart_id < NUM_KARTS; ++kart_id )
{
position[kart_id] = kart_id;
scores[kart_id] = race_manager->getKartScore(kart_id);
race_time[kart_id] = race_manager->getOverallTime(kart_id);
}
//Bubblesort
bool sorted;
do
{
sorted = true;
for( unsigned int i = start; i < NUM_KARTS - 1; ++i )
{
if( scores[i] < scores[i+1] || (scores[i] == scores[i+1]
&& race_time[i] > race_time[i+1]))
{
int tmp_score[2];
double tmp_time;
tmp_score[0] = position[i];
tmp_score[1] = scores[i];
tmp_time = race_time[i];
position[i] = position[i+1];
scores[i] = scores[i+1];
race_time[i] = race_time[i+1];
position[i+1] = tmp_score[0];
scores[i+1] = tmp_score[1];
race_time[i+1] = tmp_time;
sorted = false;
}
}
} while(!sorted);
if(kart->getIdent() != race_manager->getKartName(position[start])) return false; // winner is not player
return true;
} // grandPrixFinished

View File

@ -64,51 +64,24 @@ GrandPrixEnd::GrandPrixEnd()
const unsigned int MAX_STR_LEN = 60;
const unsigned int NUM_KARTS = race_manager->getNumKarts();
int *scores = new int[NUM_KARTS];
int *position = new int[NUM_KARTS];
double *race_time = new double[NUM_KARTS];
// Ignore the first kart if it's a follow-the-leader race.
int start=(race_manager->getMinorMode()==RaceManager::MINOR_MODE_FOLLOW_LEADER) ? 1 : 0;
for( unsigned int kart_id = start; kart_id < NUM_KARTS; ++kart_id )
int winner_kart_id = -1;
// find which kart ended at rank '0'
for(unsigned int j=start; j < NUM_KARTS; ++j)
{
position[kart_id] = kart_id;
scores[kart_id] = race_manager->getKartScore(kart_id);
race_time[kart_id] = race_manager->getOverallTime(kart_id);
}
//Bubblesort
bool sorted;
do
if( race_manager->getKartFinalGPRank(j) == 0 )
{
sorted = true;
for( unsigned int i = start; i < NUM_KARTS - 1; ++i )
{
if( scores[i] < scores[i+1] || (scores[i] == scores[i+1]
&& race_time[i] > race_time[i+1]))
{
int tmp_score[2];
double tmp_time;
tmp_score[0] = position[i];
tmp_score[1] = scores[i];
tmp_time = race_time[i];
position[i] = position[i+1];
scores[i] = scores[i+1];
race_time[i] = race_time[i+1];
position[i+1] = tmp_score[0];
scores[i+1] = tmp_score[1];
race_time[i+1] = tmp_time;
sorted = false;
winner_kart_id = j;
break;
}
}
} while(!sorted);
static char output[MAX_MESSAGE_LENGTH];
snprintf(output, sizeof(output),
_("The winner is %s!"),race_manager->getKartName(position[start]).c_str()); // FIXME - uses inner-name and not user name
_("The winner is %s!"),race_manager->getKartName(winner_kart_id).c_str()); // FIXME - uses inner-name and not user name
widget_manager->addWgt( WTOK_TITLE, 60, 10);
widget_manager->showWgtRect(WTOK_TITLE);
widget_manager->showWgtText(WTOK_TITLE);
@ -120,15 +93,26 @@ GrandPrixEnd::GrandPrixEnd()
for(unsigned int i=start; i < NUM_KARTS; ++i)
{
char sTime[20];sTime[0]=0;
//if(race_manager->getWorld()->getClockMode()==CHRONO)
// char sTime[20];sTime[0]=0;
// if(RaceManager::isLinearRaceMode(race_manager->getMinorMode()) &&
// RaceManager::modeHasLaps(race_manager->getMinorMode()) )
// TimeToString(race_time[i], sTime);
if(RaceManager::isLinearRaceMode(race_manager->getMinorMode()) &&
RaceManager::modeHasLaps(race_manager->getMinorMode()) )
TimeToString(race_time[i], sTime);
int this_kart_id = -1;
// find which kart ended at rank 'i'
for(unsigned int j=start; j < NUM_KARTS; ++j)
{
if( race_manager->getKartFinalGPRank(j) == i-start )
{
this_kart_id = j;
break;
}
}
sprintf((char*)(m_score + MAX_STR_LEN * i), "%d. %s %d %s",
i + 1-start, race_manager->getKartName(position[i]).c_str(), scores[i], sTime );
sprintf((char*)(m_score + MAX_STR_LEN * i), "#%d (%d) : %s",
i-start + 1 /* add 1 because, while the inner ranks start at 0, users expect them to start at 1 */,
race_manager->getKartScore(this_kart_id),
race_manager->getKartName(this_kart_id).c_str() );
widget_manager->addWgt(WTOK_FIRSTKART + i, 40, 5);
widget_manager->showWgtRect(WTOK_FIRSTKART + i);
@ -138,11 +122,8 @@ GrandPrixEnd::GrandPrixEnd()
widget_manager->setWgtTextSize(WTOK_FIRSTKART + i, WGT_FNT_SML);
widget_manager->breakLine();
}
const std::string KART_NAME = race_manager->getKartName(position[start]);
const KartProperties* WINNING_KART = kart_properties_manager->getKart(KART_NAME);
delete []scores;
delete []position;
delete []race_time;
const std::string WINNER_KART_NAME = race_manager->getKartName(winner_kart_id);
const KartProperties* WINNING_KART = kart_properties_manager->getKart(WINNER_KART_NAME);
widget_manager->addWgt(WTOK_QUIT, 50, 7);
widget_manager->activateWgt(WTOK_QUIT);

View File

@ -173,8 +173,8 @@ Widget *RaceResultsGUI::displayKartList(Widget *w_prev, int *order, float horizo
//This shows position + driver name + time + points earned + total points
if(race_manager->getMajorMode()==RaceManager::MAJOR_MODE_GRAND_PRIX)
{
sprintf((char*)(score + MAX_STR_LEN * i), "%d. %s %s +%d %d",
current_kart->getPosition(), kart_name.c_str(), sTime,
sprintf((char*)(score + MAX_STR_LEN * i), "#%d. %s (%d -> %d)",
current_kart->getPosition(), kart_name.c_str(),// sTime,
race_manager->getKartPrevScore(order[i]),
race_manager->getKartScore(order[i]));
}

View File

@ -299,6 +299,60 @@ void RaceManager::exit_race()
// were finished, and not when a race is aborted.
if(m_major_mode==MAJOR_MODE_GRAND_PRIX && m_track_number==(int)m_tracks.size())
{
// calculate the rank of each kart
const unsigned int NUM_KARTS = race_manager->getNumKarts();
int *scores = new int[NUM_KARTS];
int *position = new int[NUM_KARTS];
double *race_time = new double[NUM_KARTS];
// Ignore the first kart if it's a follow-the-leader race.
int start=(race_manager->getMinorMode()==RaceManager::MINOR_MODE_FOLLOW_LEADER) ? 1 : 0;
for( unsigned int kart_id = start; kart_id < NUM_KARTS; ++kart_id )
{
position[kart_id] = kart_id;
scores[kart_id] = race_manager->getKartScore(kart_id);
race_time[kart_id] = race_manager->getOverallTime(kart_id);
}
//Bubblesort
bool sorted;
do
{
sorted = true;
for( unsigned int i = start; i < NUM_KARTS - 1; ++i )
{
if( scores[i] < scores[i+1] || (scores[i] == scores[i+1]
&& race_time[i] > race_time[i+1]))
{
int tmp_score[2];
double tmp_time;
tmp_score[0] = position[i];
tmp_score[1] = scores[i];
tmp_time = race_time[i];
position[i] = position[i+1];
scores[i] = scores[i+1];
race_time[i] = race_time[i+1];
position[i+1] = tmp_score[0];
scores[i+1] = tmp_score[1];
race_time[i+1] = tmp_time;
sorted = false;
}
}
} while(!sorted);
for(unsigned int i=start; i < NUM_KARTS; ++i)
{
//printf("setting kart %s to rank %i\n", race_manager->getKartName(position[i]).c_str(), i);
m_kart_status[position[i]].m_gp_final_rank = i;
}
delete []scores;
delete []position;
delete []race_time;
unlock_manager->grandPrixFinished();
menu_manager->switchToGrandPrixEnding();
}

View File

@ -110,6 +110,7 @@ private:
KartType m_kart_type; // Kart type: AI, player, network player etc.
int m_local_player_id; // player controling the kart, for AI: -1
int m_global_player_id; // global ID of player
int m_gp_final_rank; // In GPs, at the end, will hold the overall rank of this kart.
KartStatus(const std::string& ident, const int& prev_finish_pos,
int local_player_id, int global_player_id, KartType kt) :
@ -195,6 +196,10 @@ public:
unsigned int getFinishedKarts() const { return m_num_finished_karts; }
unsigned int getFinishedPlayers() const { return m_num_finished_players; }
const std::string& getItemStyle() const { return m_grand_prix.getItemStyle(); }
int getKartFinalGPRank(const int kart_id)
const { return m_kart_status[kart_id].m_gp_final_rank; }
const std::string&
getKartName(int kart) const { return m_kart_status[kart].m_ident;}
int getKartScore(int krt) const { return m_kart_status[krt].m_score; }