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Fixed the memleaks caused by computeNewCost, moved them to gameobserver where affinity takes place, removed repeative code that was in game observer, moved the game observer components into computenewcost, removed the calls for "new mana" in all alternative play type that were added with this function.

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This commit is contained in:
zethfoxster
2016-07-06 00:02:15 -04:00
parent 4e048f775d
commit 861366dd71
4 changed files with 266 additions and 325 deletions
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299
projects/mtg/src/GameObserver.cpp
View File

@@ -1049,7 +1049,7 @@ void GameObserver::Affinity()
{
MTGGameZone * dzones[] = { players[dd]->game->graveyard, players[dd]->game->hand, players[dd]->game->library, players[dd]->game->exile };
for (int kk = 0; kk < 4; kk++)
{
{
MTGGameZone * zone = dzones[kk];
for (int cc = zone->nb_cards - 1; cc >= 0; cc--)
{//start
@@ -1057,208 +1057,115 @@ void GameObserver::Affinity()
if (!card)
continue;
///////////////////////////
//reset extracost shadows//
///////////////////////////
card->isExtraCostTarget = false;
if (mExtraPayment != NULL)
{
for (unsigned int ec = 0; ec < mExtraPayment->costs.size(); ec++)
{
if (mExtraPayment->costs[ec]->tc)
{
vector<Targetable*>targetlist = mExtraPayment->costs[ec]->tc->getTargetsFrom();
for (vector<Targetable*>::iterator it = targetlist.begin(); it != targetlist.end(); it++)
{
Targetable * cardMasked = *it;
dynamic_cast<MTGCardInstance*>(cardMasked)->isExtraCostTarget = true;
}
}
}
}
////////////////////////////
bool NewAffinityFound = false;
for (unsigned int na = 0; na < card->cardsAbilities.size(); na++)
{
if (!card->cardsAbilities[na])
break;
ANewAffinity * newAff = dynamic_cast<ANewAffinity*>(card->cardsAbilities[na]);
if (newAff)
{
NewAffinityFound = true;
}
}
bool DoReduceIncrease = false;
if (card->has(Constants::AFFINITYARTIFACTS) ||
card->has(Constants::AFFINITYFOREST) ||
card->has(Constants::AFFINITYGREENCREATURES) ||
card->has(Constants::AFFINITYISLAND) ||
card->has(Constants::AFFINITYMOUNTAIN) ||
card->has(Constants::AFFINITYPLAINS) ||
card->has(Constants::AFFINITYSWAMP) ||
card->has(Constants::TRINISPHERE) ||
card->getIncreasedManaCost()->getConvertedCost() ||
card->getReducedManaCost()->getConvertedCost() ||
NewAffinityFound)
DoReduceIncrease = true;
if (!DoReduceIncrease)
continue;
//above we check if there are even any cards that effect cards manacost
//if there are none, leave this function. manacost->copy( is a very expensive funtion
//1mb a sec to run at all time even when no known reducers or increasers are in play.
//memory snapshot shots pointed to this as such a heavy load that games with many cards inplay
//would slow to a crawl.
//only do any of the following if a card with the stated ability is in your hand.
int color = 0;
string type = "";
ManaCost * original = NEW ManaCost();
original->copy(card->model->data->getManaCost());
if(card->getIncreasedManaCost()->getConvertedCost()||card->getReducedManaCost()->getConvertedCost())
{//start1
if(card->getIncreasedManaCost()->getConvertedCost())
original->add(card->getIncreasedManaCost());
if(card->getReducedManaCost()->getConvertedCost())
original->remove(card->getReducedManaCost());
if(card->getManaCost())
card->getManaCost()->copy(original);
if(card->getManaCost()->extraCosts)
///////////////////////////
//reset extracost shadows//
///////////////////////////
card->isExtraCostTarget = false;
if (mExtraPayment != NULL)
{
for (unsigned int ec = 0; ec < mExtraPayment->costs.size(); ec++)
{
for(unsigned int i = 0; i < card->getManaCost()->extraCosts->costs.size();i++)
if (mExtraPayment->costs[ec]->tc)
{
card->getManaCost()->extraCosts->costs[i]->setSource(card);
vector<Targetable*>targetlist = mExtraPayment->costs[ec]->tc->getTargetsFrom();
for (vector<Targetable*>::iterator it = targetlist.begin(); it != targetlist.end(); it++)
{
Targetable * cardMasked = *it;
dynamic_cast<MTGCardInstance*>(cardMasked)->isExtraCostTarget = true;
}
}
}
}//end1
int reducem = 0;
bool resetCost = false;
for(unsigned int na = 0; na < card->cardsAbilities.size();na++)
{//start2
if (!card->cardsAbilities[na])
break;
}
////////////////////////////
bool NewAffinityFound = false;
for (unsigned int na = 0; na < card->cardsAbilities.size(); na++)
{
if (!card->cardsAbilities[na])
break;
ANewAffinity * newAff = dynamic_cast<ANewAffinity*>(card->cardsAbilities[na]);
if(newAff)
if (newAff)
{
if(!resetCost)
{
resetCost = true;
card->getManaCost()->copy(original);
if(card->getManaCost()->extraCosts)
{
for(unsigned int i = 0; i < card->getManaCost()->extraCosts->costs.size();i++)
{
card->getManaCost()->extraCosts->costs[i]->setSource(card);
}
}
}
TargetChooserFactory tf(this);
TargetChooser * tcn = tf.createTargetChooser(newAff->tcString,card,NULL);
NewAffinityFound = true;
}
}
bool DoReduceIncrease = false;
if (card->has(Constants::AFFINITYARTIFACTS) ||
card->has(Constants::AFFINITYFOREST) ||
card->has(Constants::AFFINITYGREENCREATURES) ||
card->has(Constants::AFFINITYISLAND) ||
card->has(Constants::AFFINITYMOUNTAIN) ||
card->has(Constants::AFFINITYPLAINS) ||
card->has(Constants::AFFINITYSWAMP) ||
card->has(Constants::TRINISPHERE) ||
card->getIncreasedManaCost()->getConvertedCost() ||
card->getReducedManaCost()->getConvertedCost() ||
NewAffinityFound)
DoReduceIncrease = true;
if (!DoReduceIncrease)
continue;
//above we check if there are even any cards that effect cards manacost
//if there are none, leave this function. manacost->copy( is a very expensive funtion
//1mb a sec to run at all time even when no known reducers or increasers are in play.
//memory snapshot shots pointed to this as such a heavy load that games with many cards inplay
//would slow to a crawl.
//only do any of the following if a card with the stated ability is in your hand.
//kicker is an addon to normal cost, suspend is not casting. add cost as needed EXACTLY as seen below.
card->getManaCost()->resetCosts();
ManaCost * newCost = NEW ManaCost();
newCost->copy(card->computeNewCost(card, card->getManaCost(), card->model->data->getManaCost()));
card->getManaCost()->copy(newCost);
SAFE_DELETE(newCost);
if (card->getManaCost()->getAlternative())
{
card->getManaCost()->getAlternative()->resetCosts();
ManaCost * newCost = NEW ManaCost();
newCost->copy(card->computeNewCost(card, card->getManaCost()->getAlternative(), card->model->data->getManaCost()->getAlternative()));
card->getManaCost()->getAlternative()->copy(newCost);
SAFE_DELETE(newCost);
}
if (card->getManaCost()->getBestow())
{
card->getManaCost()->getBestow()->resetCosts();
ManaCost * newCost = NEW ManaCost();
newCost->copy(card->computeNewCost(card, card->getManaCost()->getBestow(), card->model->data->getManaCost()->getBestow()));
card->getManaCost()->getBestow()->copy(newCost);
SAFE_DELETE(newCost);
}
if (card->getManaCost()->getRetrace())
{
card->getManaCost()->getRetrace()->resetCosts();
ManaCost * newCost = NEW ManaCost();
newCost->copy(card->computeNewCost(card, card->getManaCost()->getRetrace(), card->model->data->getManaCost()->getRetrace()));
card->getManaCost()->getRetrace()->copy(newCost);
SAFE_DELETE(newCost);
}
if (card->getManaCost()->getBuyback())
{
card->getManaCost()->getBuyback()->resetCosts();
ManaCost * newCost = NEW ManaCost();
newCost->copy(card->computeNewCost(card, card->getManaCost()->getBuyback(), card->model->data->getManaCost()->getBuyback()));
card->getManaCost()->getBuyback()->copy(newCost);
SAFE_DELETE(newCost);
}
if (card->getManaCost()->getFlashback())
{
card->getManaCost()->getFlashback()->resetCosts();
ManaCost * newCost = NEW ManaCost();
newCost->copy(card->computeNewCost(card, card->getManaCost()->getFlashback(), card->model->data->getManaCost()->getFlashback()));
card->getManaCost()->getFlashback()->copy(newCost);
SAFE_DELETE(newCost);
}
if (card->getManaCost()->getMorph())
{
card->getManaCost()->getMorph()->resetCosts();
ManaCost * newCost = NEW ManaCost();
newCost->copy(card->computeNewCost(card, card->getManaCost()->getMorph(), card->model->data->getManaCost()->getMorph()));
card->getManaCost()->getMorph()->copy(newCost);
SAFE_DELETE(newCost);
}
for (int w = 0; w < 2; ++w)
{
Player *p = this->players[w];
MTGGameZone * zones[] = { p->game->inPlay, p->game->graveyard, p->game->hand, p->game->library, p->game->stack, p->game->exile };
for (int k = 0; k < 6; k++)
{
MTGGameZone * z = zones[k];
if (tcn->targetsZone(z))
{
reducem += z->countByCanTarget(tcn);
}
}
}
SAFE_DELETE(tcn);
ManaCost * removingCost = ManaCost::parseManaCost(newAff->manaString);
for(int j = 0; j < reducem; j++)
card->getManaCost()->remove(removingCost);
SAFE_DELETE(removingCost);
}
}//end2
if(card->has(Constants::AFFINITYARTIFACTS)||
card->has(Constants::AFFINITYFOREST)||
card->has(Constants::AFFINITYGREENCREATURES)||
card->has(Constants::AFFINITYISLAND)||
card->has(Constants::AFFINITYMOUNTAIN)||
card->has(Constants::AFFINITYPLAINS)||
card->has(Constants::AFFINITYSWAMP))
{//start3
if (card->has(Constants::AFFINITYARTIFACTS))
{
type = "artifact";
}
else if (card->has(Constants::AFFINITYSWAMP))
{
type = "swamp";
}
else if (card->has(Constants::AFFINITYMOUNTAIN))
{
type = "mountain";
}
else if (card->has(Constants::AFFINITYPLAINS))
{
type = "plains";
}
else if (card->has(Constants::AFFINITYISLAND))
{
type = "island";
}
else if (card->has(Constants::AFFINITYFOREST))
{
type = "forest";
}
else if (card->has(Constants::AFFINITYGREENCREATURES))
{
color = 1;
type = "creature";
}
card->getManaCost()->copy(original);
if(card->getManaCost()->extraCosts)
{
for(unsigned int i = 0; i < card->getManaCost()->extraCosts->costs.size();i++)
{
card->getManaCost()->extraCosts->costs[i]->setSource(card);
}
}
int reduce = 0;
if(card->has(Constants::AFFINITYGREENCREATURES))
{
TargetChooserFactory tf(this);
TargetChooser * tc = tf.createTargetChooser("creature[green]",NULL);
reduce = card->controller()->game->battlefield->countByCanTarget(tc);
SAFE_DELETE(tc);
}
else
{
reduce = card->controller()->game->battlefield->countByType(type);
}
for(int i = 0; i < reduce;i++)
{
if(card->getManaCost()->getCost(color) > 0)
card->getManaCost()->remove(color,1);
}
}//end3
//trinisphere... now how to implement kicker recomputation
if(card->has(Constants::TRINISPHERE))
{
for(int jj = card->getManaCost()->getConvertedCost(); jj < 3; jj++)
{
card->getManaCost()->add(Constants::MTG_COLOR_ARTIFACT, 1);
card->countTrini++;
}
}
else
{
if(card->countTrini)
{
card->getManaCost()->remove(Constants::MTG_COLOR_ARTIFACT, card->countTrini);
card->countTrini=0;
}
}
SAFE_DELETE(original);
}//end
}
}

263
projects/mtg/src/MTGCardInstance.cpp
View File

@@ -960,123 +960,156 @@ JQuadPtr MTGCardInstance::getIcon()
return WResourceManager::Instance()->RetrieveCard(this, CACHE_THUMB);
}
ManaCost * MTGCardInstance::computeNewCost(MTGCardInstance * card,ManaCost * newCost, ManaCost * refCost, bool noTrinisphere)
ManaCost * MTGCardInstance::computeNewCost(MTGCardInstance * card,ManaCost * Cost, ManaCost * Data, bool noTrinisphere)
{
//this function introduces a nasty memleak, it also cant be safe_deleted at the locations if its not used as it leads to a wild nullpointer crash.
if(!card)
return NULL;
ManaCost * cardUnchangedCost = NEW ManaCost();
cardUnchangedCost->copy(newCost);
if(card->getIncreasedManaCost()->getConvertedCost())
cardUnchangedCost->add(card->getIncreasedManaCost());
if(card->getReducedManaCost()->getConvertedCost())
cardUnchangedCost->remove(card->getReducedManaCost());
if(refCost->extraCosts)
cardUnchangedCost->extraCosts = refCost->extraCosts;
//affinity
int color = 0;
string type = "";
ManaCost * original = NEW ManaCost();
original->copy(cardUnchangedCost);
int reducem = 0;
bool resetCost = false;
for(unsigned int na = 0; na < card->cardsAbilities.size();na++)
{//start2
ANewAffinity * newAff = dynamic_cast<ANewAffinity*>(card->cardsAbilities[na]);
if(newAff)
{
if(!resetCost)
{
resetCost = true;
cardUnchangedCost->copy(original);
}
TargetChooserFactory tf(observer);
TargetChooser * tcn = tf.createTargetChooser(newAff->tcString,card,NULL);
for (int w = 0; w < 2; ++w)
{
Player *p = observer->players[w];
MTGGameZone * zones[] = { p->game->inPlay, p->game->graveyard, p->game->hand, p->game->library, p->game->stack, p->game->exile };
for (int k = 0; k < 6; k++)
{
MTGGameZone * z = zones[k];
if (tcn->targetsZone(z))
reducem += z->countByCanTarget(tcn);
}
}
SAFE_DELETE(tcn);
ManaCost * removingCost = ManaCost::parseManaCost(newAff->manaString);
for(int j = 0; j < reducem; j++)
cardUnchangedCost->remove(removingCost);
SAFE_DELETE(removingCost);
}
}//end2
if(card->has(Constants::AFFINITYARTIFACTS)||
card->has(Constants::AFFINITYFOREST)||
card->has(Constants::AFFINITYGREENCREATURES)||
card->has(Constants::AFFINITYISLAND)||
card->has(Constants::AFFINITYMOUNTAIN)||
card->has(Constants::AFFINITYPLAINS)||
card->has(Constants::AFFINITYSWAMP))
{//start3
if (card->has(Constants::AFFINITYARTIFACTS))
type = "artifact";
else if (card->has(Constants::AFFINITYSWAMP))
type = "swamp";
else if (card->has(Constants::AFFINITYMOUNTAIN))
type = "mountain";
else if (card->has(Constants::AFFINITYPLAINS))
type = "plains";
else if (card->has(Constants::AFFINITYISLAND))
type = "island";
else if (card->has(Constants::AFFINITYFOREST))
type = "forest";
else if (card->has(Constants::AFFINITYGREENCREATURES))
{
color = 1;
type = "creature";
}
cardUnchangedCost->copy(original);
int reduce = 0;
if(card->has(Constants::AFFINITYGREENCREATURES))
{
TargetChooserFactory tf(observer);
TargetChooser * tc = tf.createTargetChooser("creature[green]",NULL);
reduce = card->controller()->game->battlefield->countByCanTarget(tc);
SAFE_DELETE(tc);
}
else
reduce = card->controller()->game->battlefield->countByType(type);
for(int i = 0; i < reduce;i++)
if(cardUnchangedCost->getCost(color) > 0)
cardUnchangedCost->remove(color,1);
}//end3
if(!noTrinisphere)
{
//trinisphere... now how to implement kicker recomputation
if(card->has(Constants::TRINISPHERE))
{
for(int jj = cardUnchangedCost->getConvertedCost(); jj < 3; jj++)
{
cardUnchangedCost->add(Constants::MTG_COLOR_ARTIFACT, 1);
card->countTrini++;
}
}
else
{
if(card->countTrini)
{
cardUnchangedCost->remove(Constants::MTG_COLOR_ARTIFACT, card->countTrini);
card->countTrini=0;
}
}
}
int color = 0;
string type = "";
ManaCost * original = NEW ManaCost();
original->copy(Data);
if (card->getIncreasedManaCost()->getConvertedCost() || card->getReducedManaCost()->getConvertedCost())
{//start1
if (card->getIncreasedManaCost()->getConvertedCost())
original->add(card->getIncreasedManaCost());
if (card->getReducedManaCost()->getConvertedCost())
original->remove(card->getReducedManaCost());
Cost->copy(original);
if (Cost->extraCosts)
{
for (unsigned int i = 0; i < Cost->extraCosts->costs.size(); i++)
{
Cost->extraCosts->costs[i]->setSource(card);
}
}
}//end1
int reducem = 0;
bool resetCost = false;
for (unsigned int na = 0; na < card->cardsAbilities.size(); na++)
{//start2
if (!card->cardsAbilities[na])
break;
ANewAffinity * newAff = dynamic_cast<ANewAffinity*>(card->cardsAbilities[na]);
if (newAff)
{
if (!resetCost)
{
resetCost = true;
Cost->copy(original);
if (Cost->extraCosts)
{
for (unsigned int i = 0; i < Cost->extraCosts->costs.size(); i++)
{
Cost->extraCosts->costs[i]->setSource(card);
}
}
}
TargetChooserFactory tf(getObserver());
TargetChooser * tcn = tf.createTargetChooser(newAff->tcString, card, NULL);
for (int w = 0; w < 2; ++w)
{
Player *p = getObserver()->players[w];
MTGGameZone * zones[] = { p->game->inPlay, p->game->graveyard, p->game->hand, p->game->library, p->game->stack, p->game->exile };
for (int k = 0; k < 6; k++)
{
MTGGameZone * z = zones[k];
if (tcn->targetsZone(z))
{
reducem += z->countByCanTarget(tcn);
}
}
}
SAFE_DELETE(tcn);
ManaCost * removingCost = ManaCost::parseManaCost(newAff->manaString);
for (int j = 0; j < reducem; j++)
original->remove(removingCost);
SAFE_DELETE(removingCost);
}
}//end2
if (card->has(Constants::AFFINITYARTIFACTS) ||
card->has(Constants::AFFINITYFOREST) ||
card->has(Constants::AFFINITYGREENCREATURES) ||
card->has(Constants::AFFINITYISLAND) ||
card->has(Constants::AFFINITYMOUNTAIN) ||
card->has(Constants::AFFINITYPLAINS) ||
card->has(Constants::AFFINITYSWAMP))
{//start3
if (card->has(Constants::AFFINITYARTIFACTS))
{
type = "artifact";
}
else if (card->has(Constants::AFFINITYSWAMP))
{
type = "swamp";
}
else if (card->has(Constants::AFFINITYMOUNTAIN))
{
type = "mountain";
}
else if (card->has(Constants::AFFINITYPLAINS))
{
type = "plains";
}
else if (card->has(Constants::AFFINITYISLAND))
{
type = "island";
}
else if (card->has(Constants::AFFINITYFOREST))
{
type = "forest";
}
else if (card->has(Constants::AFFINITYGREENCREATURES))
{
color = 1;
type = "creature";
}
Cost->copy(original);
if (Cost->extraCosts)
{
for (unsigned int i = 0; i < Cost->extraCosts->costs.size(); i++)
{
Cost->extraCosts->costs[i]->setSource(card);
}
}
int reduce = 0;
if (card->has(Constants::AFFINITYGREENCREATURES))
{
TargetChooserFactory tf(getObserver());
TargetChooser * tc = tf.createTargetChooser("creature[green]", NULL);
reduce = card->controller()->game->battlefield->countByCanTarget(tc);
SAFE_DELETE(tc);
}
else
{
reduce = card->controller()->game->battlefield->countByType(type);
}
for (int i = 0; i < reduce; i++)
{
if (Cost->getCost(color) > 0)
Cost->remove(color, 1);
}
}//end3
//trinisphere... now how to implement kicker recomputation
if (card->has(Constants::TRINISPHERE))
{
for (int jj = Cost->getConvertedCost(); jj < 3; jj++)
{
Cost->add(Constants::MTG_COLOR_ARTIFACT, 1);
card->countTrini++;
}
}
else
{
if (card->countTrini)
{
Cost->remove(Constants::MTG_COLOR_ARTIFACT, card->countTrini);
card->countTrini = 0;
}
}
SAFE_DELETE(original);
return cardUnchangedCost;
return Cost;
}
MTGCardInstance * MTGCardInstance::getNextPartner()

28
projects/mtg/src/MTGRules.cpp
View File

@@ -709,7 +709,7 @@ int MTGAlternativeCostRule::isReactingToClick(MTGCardInstance * card, ManaCost *
return 0;//overload has its own rule
if(!card->getManaCost()->getAlternative())
return 0;
ManaCost * alternateCost = card->computeNewCost(card,card->model->data->getManaCost()->getAlternative(),card->getManaCost()->getAlternative());
ManaCost * alternateCost = card->getManaCost()->getAlternative();
if(alternateCost->extraCosts)
for(unsigned int i = 0; i < alternateCost->extraCosts->costs.size();i++)
{
@@ -773,7 +773,7 @@ int MTGAlternativeCostRule::reactToClick(MTGCardInstance * card)
if ( !isReactingToClick(card))
return 0;
ManaCost * alternateCost = card->computeNewCost(card,card->model->data->getManaCost()->getAlternative(),card->getManaCost()->getAlternative());
ManaCost * alternateCost = card->getManaCost()->getAlternative();
card->paymenttype = MTGAbility::ALTERNATIVE_COST;
if(alternateCost->extraCosts)
for(unsigned int i = 0; i < alternateCost->extraCosts->costs.size();i++)
@@ -942,7 +942,7 @@ int MTGBuyBackRule::isReactingToClick(MTGCardInstance * card, ManaCost * mana)
return 0;
if(!card->getManaCost()->getBuyback())
return 0;
ManaCost * buybackCost = card->computeNewCost(card,card->model->data->getManaCost()->getBuyback(),card->getManaCost()->getBuyback());
ManaCost * buybackCost = card->getManaCost()->getBuyback();
if(buybackCost->extraCosts)
for(unsigned int i = 0; i < buybackCost->extraCosts->costs.size();i++)
{
@@ -956,7 +956,7 @@ int MTGBuyBackRule::reactToClick(MTGCardInstance * card)
if (!isReactingToClick(card))
return 0;
ManaCost * buybackCost = card->computeNewCost(card,card->model->data->getManaCost()->getBuyback(),card->getManaCost()->getBuyback());
ManaCost * buybackCost = card->getManaCost()->getBuyback();
if(buybackCost->extraCosts)
for(unsigned int i = 0; i < buybackCost->extraCosts->costs.size();i++)
{
@@ -996,7 +996,7 @@ int MTGFlashBackRule::isReactingToClick(MTGCardInstance * card, ManaCost * mana)
return 0;
if(!card->getManaCost()->getFlashback())
return 0;
ManaCost * flashbackCost = card->computeNewCost(card,card->model->data->getManaCost()->getFlashback(),card->getManaCost()->getFlashback());
ManaCost * flashbackCost = card->getManaCost()->getFlashback();
if(flashbackCost->extraCosts)
for(unsigned int i = 0; i < flashbackCost->extraCosts->costs.size();i++)
{
@@ -1007,7 +1007,7 @@ int MTGFlashBackRule::isReactingToClick(MTGCardInstance * card, ManaCost * mana)
int MTGFlashBackRule::reactToClick(MTGCardInstance * card)
{
ManaCost * flashbackCost = card->computeNewCost(card,card->model->data->getManaCost()->getFlashback(),card->getManaCost()->getFlashback());
ManaCost * flashbackCost = card->getManaCost()->getFlashback();
if(flashbackCost->extraCosts)
for(unsigned int i = 0; i < flashbackCost->extraCosts->costs.size();i++)
{
@@ -1053,7 +1053,7 @@ int MTGRetraceRule::isReactingToClick(MTGCardInstance * card, ManaCost * mana)
{
return 0;
}
auto retraceCost = card->computeNewCost(card, card->model->data->getManaCost()->getRetrace(), card->getManaCost()->getRetrace());
auto retraceCost = card->getManaCost()->getRetrace();
if(retraceCost->extraCosts)
for(unsigned int i = 0; i < retraceCost->extraCosts->costs.size();i++)
{
@@ -1068,7 +1068,7 @@ int MTGRetraceRule::reactToClick(MTGCardInstance * card)
if (!isReactingToClick(card))
return 0;
ManaCost * retraceCost = card->computeNewCost(card,card->model->data->getManaCost()->getRetrace(),card->getManaCost()->getRetrace());
ManaCost * retraceCost = card->getManaCost()->getRetrace();
if(retraceCost->extraCosts)
for(unsigned int i = 0; i < retraceCost->extraCosts->costs.size();i++)
{
@@ -1245,7 +1245,7 @@ int MTGMorphCostRule::isReactingToClick(MTGCardInstance * card, ManaCost *)
if (card->controller()->game->playRestrictions->canPutIntoZone(card, card->controller()->game->stack) == PlayRestriction::CANT_PLAY)
return 0;
ManaCost * playerMana = player->getManaPool();
ManaCost * morph = card->computeNewCost(card,card->model->data->getManaCost()->getMorph(),card->getManaCost()->getMorph());
ManaCost * morph = card->getManaCost()->getMorph();
if(morph->extraCosts)
for(unsigned int i = 0; i < morph->extraCosts->costs.size();i++)
{
@@ -1274,7 +1274,7 @@ int MTGMorphCostRule::reactToClick(MTGCardInstance * card)
Player * player = game->currentlyActing();
ManaCost * cost = card->getManaCost();
ManaCost * playerMana = player->getManaPool();
ManaCost * morph = card->computeNewCost(card,card->model->data->getManaCost()->getMorph(),card->getManaCost()->getMorph());
ManaCost * morph = card->getManaCost()->getMorph();
if(morph->extraCosts)
for(unsigned int i = 0; i < morph->extraCosts->costs.size();i++)
{
@@ -1446,7 +1446,7 @@ int MTGOverloadRule::isReactingToClick(MTGCardInstance * card, ManaCost * mana)
{
return 0;
}
ManaCost * newCost = card->computeNewCost(card, card->model->data->getManaCost()->getAlternative(), card->getManaCost()->getAlternative());
ManaCost * newCost = card->getManaCost()->getAlternative();
if(newCost->extraCosts)
for(unsigned int i = 0; i < newCost->extraCosts->costs.size();i++)
{
@@ -1462,7 +1462,7 @@ int MTGOverloadRule::reactToClick(MTGCardInstance * card)
return 0;
ManaCost * cost = NEW ManaCost(card->model->data->getManaCost()->getAlternative());
ManaCost * newCost = card->computeNewCost(card, card->model->data->getManaCost()->getAlternative(), card->getManaCost()->getAlternative());
ManaCost * newCost = card->getManaCost()->getAlternative();
if(newCost->extraCosts)
for(unsigned int i = 0; i < newCost->extraCosts->costs.size();i++)
{
@@ -1508,7 +1508,7 @@ int MTGBestowRule::isReactingToClick(MTGCardInstance * card, ManaCost * mana)
{
return 0;
}
ManaCost * newCost = card->computeNewCost(card, card->model->data->getManaCost()->getBestow(), card->getManaCost()->getBestow());
ManaCost * newCost = card->getManaCost()->getBestow();
if (newCost->extraCosts)
for (unsigned int i = 0; i < newCost->extraCosts->costs.size(); i++)
{
@@ -1523,7 +1523,7 @@ int MTGBestowRule::reactToClick(MTGCardInstance * card)
return 0;
//this new method below in all alternative cost type causes a memleak, however, you cant safedelete the cost here as it cause a crash
//TODO::::we need to get to the source of this leak and fix it.
ManaCost * newCost = card->computeNewCost(card, card->model->data->getManaCost()->getBestow(), card->getManaCost()->getBestow());
ManaCost * newCost = card->getManaCost()->getBestow();
if (newCost->extraCosts)
for (unsigned int i = 0; i < newCost->extraCosts->costs.size(); i++)

1
projects/mtg/src/ManaCost.cpp
View File

@@ -601,6 +601,7 @@ void ManaCost::copy(ManaCost * _manaCost)
hybrids = _manaCost->hybrids;
SAFE_DELETE(extraCosts);
if (_manaCost->extraCosts)
{
extraCosts = _manaCost->extraCosts->clone();