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f73196841aa2d3470dd883b4c4a34aa6ebc84ea6
Cockatrice/common/decklist.cpp
BruebachL f73196841a Multiple Printings per Deck (#5171) 
* Refactor CardInfo Widgets to reside in their appropriate folder and to have a clearer naming structure.

* Added Zach's work on storing printing information in the DeckList (#1)

* Change CardInfo's PixmapCacheKey to be the UUID of the preferred set after database loading has finished. Otherwise, and if no UUID of a preferred set is available, default to the card name.

* Refactor CardDatabase *db global variable to singleton CardDatabaseManager.

This commit refactors the global variable CardDatabase *db into a singleton encapsulated by the DatabaseManager class, accessible via DatabaseManager::getInstance(). This change centralizes access to the database instance, improving code modularity and encapsulation, resolving dependencies on main.h for code that requires access to the database instance.

- Added DatabaseManager class with getInstance() method returning a pointer to the singleton CardDatabase.
- Removed global db variable and updated references across the codebase.
 - Thread-safe static initialization for the singleton.

Impact: This refactor should have no functional impact on the application, as it maintains the same interface for accessing the CardDatabase instance. However, the codebase now benefits from improved encapsulation, lifetime management, and thread-safety.

* fixed db issue an renamed sets to set in picture loader

* canibalized zach work and added it to the decklist builder

---------

Co-authored-by: Lukas Brübach <Bruebach.Lukas@bdosecurity.de>

* Reintroduce some changes lost in the merge.

* Introduce UUID attribute to abstract_card_item, card_item, deck_view_card, server_card and serverinfo_card.

* Have various game events respect the new UUID attribute on instantiation.

* Correct some calls to default to preferred printing.

* DeckList now tries to assign reasonable defaults for UUID and collectorNumber if none are found in loaded DeckLists.
Rename overloaded DeckListModel findChild() function to findCardChildByNameAndUUID() for clarity.

* canibalized zach work and added it to the decklist builder

* Change getPreferredPrintingForCard to getPreferredSetForCard to reflect refactor.

* Properly update and set the DeckEditor's CardFrame to fetch by name and UUID if a card was selected from the decklist.

* Mainboard/Sideboard swaps should respect the UUID from the old zone instead of just blindly adding preferredPrinting.

* If the card info is null, there's no point in trying to look for the sets.

* Don't define methods twice.

* Convenience method to fetch a specific CardInfoPerSet instance for a cardName and a UUID.

* Check if the uuid starts with card_ when comparing.

* Address pull request comments (nullptr checks and additional comments, mostly.)

* Reformat code so the linter will stop yelling at me.

* DeckList no longer pre-populates uuids.

* Update Event_MoveCard to include the card UUID.

* Update Player::MoveCard to include the card UUID.

* Set the uuid when we set the cardName, in terms of hidden zones.

* [TEST/RevertMe] Set the uuid everywhere to test.

* Don't inline setUUID and mimic setName for AbstractCardItem.

* Revert blindly setting uuid for testing.

* Address PR comments (AbstractCardItem).

* Combine if-statement.

* Re-order uuid to visually align with its field number.

* Remove unnecessary new uuid field from event_move_card.

* Remove unused imports.

* Include cardName in the PixmapCacheKey in order to not break double-faced cards.

* Refactor setCode to cardUUID and introduce new cardSetShortName field.

* Override

* Refactor UUID to be providerId and change QString comparisons with empty string to isEmpty().

* Update translations.

* Change parent to be the first argument.

* Pull Parent argument up for CardItem.

* Pull Parent argument up for CardItem.

* Linter.

---------

Co-authored-by: Lukas Brübach <Bruebach.Lukas@bdosecurity.de>
Co-authored-by: LunaticCat <39006478+LunyaticCat@users.noreply.github.com>
Co-authored-by: luna <yannbrun1507@outlook.fr>
Co-authored-by: ZeldaZach <zahalpern+github@gmail.com>
2024-11-18 21:56:44 -05:00

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#include "decklist.h"
#include <QCryptographicHash>
#include <QDebug>
#include <QFile>
#include <QRegularExpression>
#include <QTextStream>
#include <algorithm>
#if QT_VERSION < 0x050600
// qHash on QRegularExpression was added in 5.6, FIX IT
uint qHash(const QRegularExpression &key, uint seed) noexcept
{
return qHash(key.pattern(), seed); // call qHash on pattern QString instead
}
#endif
SideboardPlan::SideboardPlan(const QString &_name, const QList<MoveCard_ToZone> &_moveList)
: name(_name), moveList(_moveList)
{
}
void SideboardPlan::setMoveList(const QList<MoveCard_ToZone> &_moveList)
{
moveList = _moveList;
}
bool SideboardPlan::readElement(QXmlStreamReader *xml)
{
while (!xml->atEnd()) {
xml->readNext();
const QString childName = xml->name().toString();
if (xml->isStartElement()) {
if (childName == "name")
name = xml->readElementText();
else if (childName == "move_card_to_zone") {
MoveCard_ToZone m;
while (!xml->atEnd()) {
xml->readNext();
const QString childName2 = xml->name().toString();
if (xml->isStartElement()) {
if (childName2 == "card_name")
m.set_card_name(xml->readElementText().toStdString());
else if (childName2 == "start_zone")
m.set_start_zone(xml->readElementText().toStdString());
else if (childName2 == "target_zone")
m.set_target_zone(xml->readElementText().toStdString());
} else if (xml->isEndElement() && (childName2 == "move_card_to_zone")) {
moveList.append(m);
break;
}
}
}
} else if (xml->isEndElement() && (childName == "sideboard_plan"))
return true;
}
return false;
}
void SideboardPlan::write(QXmlStreamWriter *xml)
{
xml->writeStartElement("sideboard_plan");
xml->writeTextElement("name", name);
for (auto &i : moveList) {
xml->writeStartElement("move_card_to_zone");
xml->writeTextElement("card_name", QString::fromStdString(i.card_name()));
xml->writeTextElement("start_zone", QString::fromStdString(i.start_zone()));
xml->writeTextElement("target_zone", QString::fromStdString(i.target_zone()));
xml->writeEndElement();
}
xml->writeEndElement();
}
AbstractDecklistNode::AbstractDecklistNode(InnerDecklistNode *_parent) : parent(_parent), sortMethod(Default)
{
if (parent) {
parent->append(this);
}
}
int AbstractDecklistNode::depth() const
{
if (parent) {
return parent->depth() + 1;
} else {
return 0;
}
}
InnerDecklistNode::InnerDecklistNode(InnerDecklistNode *other, InnerDecklistNode *_parent)
: AbstractDecklistNode(_parent), name(other->getName()), cardSetShortName(other->getCardSetShortName()),
cardCollectorNumber(other->getCardCollectorNumber()), cardProviderId(other->getCardProviderId())
{
for (int i = 0; i < other->size(); ++i) {
auto *inner = dynamic_cast<InnerDecklistNode *>(other->at(i));
if (inner) {
new InnerDecklistNode(inner, this);
} else {
new DecklistCardNode(dynamic_cast<DecklistCardNode *>(other->at(i)), this);
}
}
}
InnerDecklistNode::~InnerDecklistNode()
{
clearTree();
}
QString InnerDecklistNode::visibleNameFromName(const QString &_name)
{
if (_name == DECK_ZONE_MAIN) {
return QObject::tr("Maindeck");
} else if (_name == DECK_ZONE_SIDE) {
return QObject::tr("Sideboard");
} else if (_name == DECK_ZONE_TOKENS) {
return QObject::tr("Tokens");
} else {
return _name;
}
}
void InnerDecklistNode::setSortMethod(DeckSortMethod method)
{
sortMethod = method;
for (int i = 0; i < size(); i++) {
at(i)->setSortMethod(method);
}
}
QString InnerDecklistNode::getVisibleName() const
{
return visibleNameFromName(name);
}
void InnerDecklistNode::clearTree()
{
for (int i = 0; i < size(); i++)
delete at(i);
clear();
}
DecklistCardNode::DecklistCardNode(DecklistCardNode *other, InnerDecklistNode *_parent)
: AbstractDecklistCardNode(_parent), name(other->getName()), number(other->getNumber()),
cardSetShortName(other->getCardSetShortName()), cardSetNumber(other->getCardCollectorNumber()),
cardProviderId(other->getCardProviderId())
{
}
AbstractDecklistNode *InnerDecklistNode::findChild(const QString &_name)
{
for (int i = 0; i < size(); i++) {
if (at(i)->getName() == _name) {
return at(i);
}
}
return nullptr;
}
AbstractDecklistNode *InnerDecklistNode::findCardChildByNameAndProviderId(const QString &_name,
const QString &_providerId)
{
for (int i = 0; i < size(); i++) {
if (at(i) != nullptr && at(i)->getName() == _name && at(i)->getCardProviderId() == _providerId) {
return at(i);
}
}
return nullptr;
}
int InnerDecklistNode::height() const
{
return at(0)->height() + 1;
}
int InnerDecklistNode::recursiveCount(bool countTotalCards) const
{
int result = 0;
for (int i = 0; i < size(); i++) {
auto *node = dynamic_cast<InnerDecklistNode *>(at(i));
if (node) {
result += node->recursiveCount(countTotalCards);
} else if (countTotalCards) {
result += dynamic_cast<AbstractDecklistCardNode *>(at(i))->getNumber();
} else {
result++;
}
}
return result;
}
bool InnerDecklistNode::compare(AbstractDecklistNode *other) const
{
switch (sortMethod) {
case ByNumber:
return compareNumber(other);
case ByName:
return compareName(other);
default:
return false;
}
}
bool InnerDecklistNode::compareNumber(AbstractDecklistNode *other) const
{
auto *other2 = dynamic_cast<InnerDecklistNode *>(other);
if (other2) {
int n1 = recursiveCount(true);
int n2 = other2->recursiveCount(true);
return (n1 != n2) ? (n1 > n2) : compareName(other);
} else {
return false;
}
}
bool InnerDecklistNode::compareName(AbstractDecklistNode *other) const
{
auto *other2 = dynamic_cast<InnerDecklistNode *>(other);
if (other2) {
return (getName() > other2->getName());
} else {
return false;
}
}
bool AbstractDecklistCardNode::compare(AbstractDecklistNode *other) const
{
switch (sortMethod) {
case ByNumber:
return compareNumber(other);
case ByName:
return compareName(other);
default:
return false;
}
}
bool AbstractDecklistCardNode::compareNumber(AbstractDecklistNode *other) const
{
auto *other2 = dynamic_cast<AbstractDecklistCardNode *>(other);
if (other2) {
int n1 = getNumber();
int n2 = other2->getNumber();
return (n1 != n2) ? (n1 > n2) : compareName(other);
} else {
return true;
}
}
bool AbstractDecklistCardNode::compareName(AbstractDecklistNode *other) const
{
auto *other2 = dynamic_cast<AbstractDecklistCardNode *>(other);
if (other2) {
return (getName() > other2->getName());
} else {
return true;
}
}
class InnerDecklistNode::compareFunctor
{
private:
Qt::SortOrder order;
public:
explicit compareFunctor(Qt::SortOrder _order) : order(_order)
{
}
inline bool operator()(QPair<int, AbstractDecklistNode *> a, QPair<int, AbstractDecklistNode *> b) const
{
return (order == Qt::AscendingOrder) ? (b.second->compare(a.second)) : (a.second->compare(b.second));
}
};
bool InnerDecklistNode::readElement(QXmlStreamReader *xml)
{
while (!xml->atEnd()) {
xml->readNext();
const QString childName = xml->name().toString();
if (xml->isStartElement()) {
if (childName == "zone") {
InnerDecklistNode *newZone = new InnerDecklistNode(xml->attributes().value("name").toString(), this);
newZone->readElement(xml);
} else if (childName == "card") {
DecklistCardNode *newCard = new DecklistCardNode(
xml->attributes().value("name").toString(), xml->attributes().value("number").toString().toInt(),
this, xml->attributes().value("setShortName").toString(),
xml->attributes().value("collectorNumber").toString(), xml->attributes().value("uuid").toString());
newCard->readElement(xml);
}
} else if (xml->isEndElement() && (childName == "zone"))
return false;
}
return true;
}
void InnerDecklistNode::writeElement(QXmlStreamWriter *xml)
{
xml->writeStartElement("zone");
xml->writeAttribute("name", name);
for (int i = 0; i < size(); i++)
at(i)->writeElement(xml);
xml->writeEndElement(); // zone
}
bool AbstractDecklistCardNode::readElement(QXmlStreamReader *xml)
{
while (!xml->atEnd()) {
xml->readNext();
if (xml->isEndElement() && xml->name().toString() == "card")
return false;
}
return true;
}
void AbstractDecklistCardNode::writeElement(QXmlStreamWriter *xml)
{
xml->writeEmptyElement("card");
xml->writeAttribute("number", QString::number(getNumber()));
xml->writeAttribute("name", getName());
if (getCardSetShortName().isEmpty()) {
xml->writeAttribute("setShortName", getCardSetShortName());
}
if (getCardCollectorNumber().isEmpty()) {
xml->writeAttribute("collectorNumber", getCardCollectorNumber());
}
if (getCardProviderId().isEmpty()) {
xml->writeAttribute("uuid", getCardProviderId());
}
}
QVector<QPair<int, int>> InnerDecklistNode::sort(Qt::SortOrder order)
{
QVector<QPair<int, int>> result(size());
// Initialize temporary list with contents of current list
QVector<QPair<int, AbstractDecklistNode *>> tempList(size());
for (int i = size() - 1; i >= 0; --i) {
tempList[i].first = i;
tempList[i].second = at(i);
}
// Sort temporary list
compareFunctor cmp(order);
std::sort(tempList.begin(), tempList.end(), cmp);
// Map old indexes to new indexes and
// copy temporary list to the current one
for (int i = size() - 1; i >= 0; --i) {
result[i].first = tempList[i].first;
result[i].second = i;
replace(i, tempList[i].second);
}
return result;
}
DeckList::DeckList()
{
root = new InnerDecklistNode;
}
// TODO: https://qt-project.org/doc/qt-4.8/qobject.html#no-copy-constructor-or-assignment-operator
DeckList::DeckList(const DeckList &other)
: QObject(), name(other.name), comments(other.comments), deckHash(other.deckHash)
{
root = new InnerDecklistNode(other.getRoot());
QMapIterator<QString, SideboardPlan *> spIterator(other.getSideboardPlans());
while (spIterator.hasNext()) {
spIterator.next();
sideboardPlans.insert(spIterator.key(), new SideboardPlan(spIterator.key(), spIterator.value()->getMoveList()));
}
updateDeckHash();
}
DeckList::DeckList(const QString &nativeString)
{
root = new InnerDecklistNode;
loadFromString_Native(nativeString);
}
DeckList::~DeckList()
{
delete root;
QMapIterator<QString, SideboardPlan *> i(sideboardPlans);
while (i.hasNext())
delete i.next().value();
}
QList<MoveCard_ToZone> DeckList::getCurrentSideboardPlan()
{
SideboardPlan *current = sideboardPlans.value(QString(), 0);
if (!current)
return QList<MoveCard_ToZone>();
else
return current->getMoveList();
}
void DeckList::setCurrentSideboardPlan(const QList<MoveCard_ToZone> &plan)
{
SideboardPlan *current = sideboardPlans.value(QString(), 0);
if (!current) {
current = new SideboardPlan;
sideboardPlans.insert(QString(), current);
}
current->setMoveList(plan);
}
bool DeckList::readElement(QXmlStreamReader *xml)
{
const QString childName = xml->name().toString();
if (xml->isStartElement()) {
if (childName == "deckname")
name = xml->readElementText();
else if (childName == "comments")
comments = xml->readElementText();
else if (childName == "zone") {
InnerDecklistNode *newZone = getZoneObjFromName(xml->attributes().value("name").toString());
newZone->readElement(xml);
} else if (childName == "sideboard_plan") {
SideboardPlan *newSideboardPlan = new SideboardPlan;
if (newSideboardPlan->readElement(xml))
sideboardPlans.insert(newSideboardPlan->getName(), newSideboardPlan);
else
delete newSideboardPlan;
}
} else if (xml->isEndElement() && (childName == "cockatrice_deck"))
return false;
return true;
}
void DeckList::write(QXmlStreamWriter *xml)
{
xml->writeStartElement("cockatrice_deck");
xml->writeAttribute("version", "1");
xml->writeTextElement("deckname", name);
xml->writeTextElement("comments", comments);
for (int i = 0; i < root->size(); i++)
root->at(i)->writeElement(xml);
QMapIterator<QString, SideboardPlan *> i(sideboardPlans);
while (i.hasNext())
i.next().value()->write(xml);
xml->writeEndElement();
}
bool DeckList::loadFromXml(QXmlStreamReader *xml)
{
if (xml->error()) {
qDebug() << "Error loading deck from xml: " << xml->errorString();
return false;
}
cleanList();
while (!xml->atEnd()) {
xml->readNext();
if (xml->isStartElement()) {
if (xml->name().toString() != "cockatrice_deck")
return false;
while (!xml->atEnd()) {
xml->readNext();
if (!readElement(xml))
break;
}
}
}
updateDeckHash();
if (xml->error()) {
qDebug() << "Error loading deck from xml: " << xml->errorString();
return false;
}
return true;
}
bool DeckList::loadFromString_Native(const QString &nativeString)
{
QXmlStreamReader xml(nativeString);
return loadFromXml(&xml);
}
QString DeckList::writeToString_Native()
{
QString result;
QXmlStreamWriter xml(&result);
xml.writeStartDocument();
write(&xml);
xml.writeEndDocument();
return result;
}
bool DeckList::loadFromFile_Native(QIODevice *device)
{
QXmlStreamReader xml(device);
return loadFromXml(&xml);
}
bool DeckList::saveToFile_Native(QIODevice *device)
{
QXmlStreamWriter xml(device);
xml.setAutoFormatting(true);
xml.writeStartDocument();
write(&xml);
xml.writeEndDocument();
return true;
}
bool DeckList::loadFromStream_Plain(QTextStream &in)
{
const QRegularExpression reCardLine(R"(^\s*[\w\[\(\{].*$)", QRegularExpression::UseUnicodePropertiesOption);
const QRegularExpression reEmpty("^\\s*$");
const QRegularExpression reComment(R"([\w\[\(\{].*$)", QRegularExpression::UseUnicodePropertiesOption);
const QRegularExpression reSBMark("^\\s*sb:\\s*(.+)", QRegularExpression::CaseInsensitiveOption);
const QRegularExpression reSBComment("^sideboard\\b.*$", QRegularExpression::CaseInsensitiveOption);
const QRegularExpression reDeckComment("^((main)?deck(list)?|mainboard)\\b",
QRegularExpression::CaseInsensitiveOption);
// simplified matches
const QRegularExpression reMultiplier(R"(^[xX\(\[]*(\d+)[xX\*\)\]]* ?(.+))");
const QRegularExpression reBrace(R"( ?[\[\{][^\]\}]*[\]\}] ?)"); // not nested
const QRegularExpression reRoundBrace(R"(^\([^\)]*\) ?)"); // () are only matched at start of string
const QRegularExpression reDigitBrace(R"( ?\(\d*\) ?)"); // () are matched if containing digits
// () are matched if containing setcode then a number
const QRegularExpression reBraceDigit(R"( ?\([\dA-Z]+\) *\d+$)");
const QHash<QRegularExpression, QString> differences{{QRegularExpression(""), QString("'")},
{QRegularExpression("Æ"), QString("Ae")},
{QRegularExpression("æ"), QString("ae")},
{QRegularExpression(" ?[|/]+ ?"), QString(" // ")}};
cleanList();
auto inputs = in.readAll().trimmed().split('\n');
auto max_line = inputs.size();
// start at the first empty line before the first cardline
auto deckStart = inputs.indexOf(reCardLine);
if (deckStart == -1) { // there are no cards?
if (inputs.indexOf(reComment) == -1) {
return false; // input is empty
}
deckStart = max_line;
} else {
deckStart = inputs.lastIndexOf(reEmpty, deckStart);
if (deckStart == -1) {
deckStart = 0;
}
}
// find sideboard position, if marks are used this won't be needed
int sBStart = -1;
if (inputs.indexOf(reSBMark, deckStart) == -1) {
sBStart = inputs.indexOf(reSBComment, deckStart);
if (sBStart == -1) {
sBStart = inputs.indexOf(reEmpty, deckStart + 1);
if (sBStart == -1) {
sBStart = max_line;
}
auto nextCard = inputs.indexOf(reCardLine, sBStart + 1);
if (inputs.indexOf(reEmpty, nextCard + 1) != -1) {
sBStart = max_line; // if there is another empty line all cards are mainboard
}
}
}
int index = 0;
QRegularExpressionMatch match;
// parse name and comments
while (index < deckStart) {
const auto &current = inputs.at(index++);
if (!current.contains(reEmpty)) {
match = reComment.match(current);
name = match.captured();
break;
}
}
while (index < deckStart) {
const auto &current = inputs.at(index++);
if (!current.contains(reEmpty)) {
match = reComment.match(current);
comments += match.captured() + '\n';
}
}
comments.chop(1); // remove last newline
// discard empty lines
while (index < max_line && inputs.at(index).contains(reEmpty)) {
++index;
}
// discard line if it starts with deck or mainboard, all cards until the sideboard starts are in the mainboard
if (inputs.at(index).contains(reDeckComment)) {
++index;
}
// parse decklist
for (; index < max_line; ++index) {
// check if line is a card
match = reCardLine.match(inputs.at(index));
if (!match.hasMatch())
continue;
QString cardName = match.captured().simplified();
// check if card should be sideboard
bool sideboard = false;
if (sBStart < 0) {
match = reSBMark.match(cardName);
if (match.hasMatch()) {
sideboard = true;
cardName = match.captured(1);
}
} else {
if (index == sBStart) // skip sideboard line itself
continue;
sideboard = index > sBStart;
}
// check if a specific amount is mentioned
int amount = 1;
match = reMultiplier.match(cardName);
if (match.hasMatch()) {
amount = match.captured(1).toInt();
cardName = match.captured(2);
}
// remove stuff inbetween braces
cardName.remove(reBrace);
cardName.remove(reRoundBrace); // I'll be entirely honest here, these are split to accommodate just three cards
cardName.remove(reDigitBrace); // from un-sets that have a word in between round braces at the end
cardName.remove(reBraceDigit); // very specific format with the set code in () and collectors number after
// replace common differences in cardnames
for (auto diff = differences.constBegin(); diff != differences.constEnd(); ++diff) {
cardName.replace(diff.key(), diff.value());
}
// get cardname, this function does nothing if the name is not found
cardName = getCompleteCardName(cardName);
// get zone name based on if it's in sideboard
QString zoneName = getCardZoneFromName(cardName, sideboard ? DECK_ZONE_SIDE : DECK_ZONE_MAIN);
// make new entry in decklist
new DecklistCardNode(cardName, amount, getZoneObjFromName(zoneName));
}
updateDeckHash();
return true;
}
InnerDecklistNode *DeckList::getZoneObjFromName(const QString &zoneName)
{
for (int i = 0; i < root->size(); i++) {
auto *node = dynamic_cast<InnerDecklistNode *>(root->at(i));
if (node->getName() == zoneName) {
return node;
}
}
return new InnerDecklistNode(zoneName, root);
}
bool DeckList::loadFromFile_Plain(QIODevice *device)
{
QTextStream in(device);
return loadFromStream_Plain(in);
}
struct WriteToStream
{
QTextStream &stream;
bool prefixSideboardCards;
bool slashTappedOutSplitCards;
WriteToStream(QTextStream &_stream, bool _prefixSideboardCards, bool _slashTappedOutSplitCards)
: stream(_stream), prefixSideboardCards(_prefixSideboardCards),
slashTappedOutSplitCards(_slashTappedOutSplitCards)
{
}
void operator()(const InnerDecklistNode *node, const DecklistCardNode *card)
{
if (prefixSideboardCards && node->getName() == DECK_ZONE_SIDE) {
stream << "SB: ";
}
if (!slashTappedOutSplitCards) {
stream << QString("%1 %2\n").arg(card->getNumber()).arg(card->getName());
} else {
stream << QString("%1 %2\n").arg(card->getNumber()).arg(card->getName().replace("//", "/"));
}
}
};
bool DeckList::saveToStream_Plain(QTextStream &out, bool prefixSideboardCards, bool slashTappedOutSplitCards)
{
WriteToStream writeToStream(out, prefixSideboardCards, slashTappedOutSplitCards);
forEachCard(writeToStream);
return true;
}
bool DeckList::saveToFile_Plain(QIODevice *device, bool prefixSideboardCards, bool slashTappedOutSplitCards)
{
QTextStream out(device);
return saveToStream_Plain(out, prefixSideboardCards, slashTappedOutSplitCards);
}
QString DeckList::writeToString_Plain(bool prefixSideboardCards, bool slashTappedOutSplitCards)
{
QString result;
QTextStream out(&result);
saveToStream_Plain(out, prefixSideboardCards, slashTappedOutSplitCards);
return result;
}
void DeckList::cleanList()
{
root->clearTree();
setName();
setComments();
deckHash = QString();
emit deckHashChanged();
}
void DeckList::getCardListHelper(InnerDecklistNode *item, QSet<QString> &result) const
{
for (int i = 0; i < item->size(); ++i) {
auto *node = dynamic_cast<DecklistCardNode *>(item->at(i));
if (node) {
result.insert(node->getName());
} else {
getCardListHelper(dynamic_cast<InnerDecklistNode *>(item->at(i)), result);
}
}
}
QStringList DeckList::getCardList() const
{
QSet<QString> result;
getCardListHelper(root, result);
return result.values();
}
int DeckList::getSideboardSize() const
{
int size = 0;
for (int i = 0; i < root->size(); ++i) {
auto *node = dynamic_cast<InnerDecklistNode *>(root->at(i));
if (node->getName() != DECK_ZONE_SIDE) {
continue;
}
for (int j = 0; j < node->size(); j++) {
auto *card = dynamic_cast<DecklistCardNode *>(node->at(j));
size += card->getNumber();
}
}
return size;
}
DecklistCardNode *DeckList::addCard(const QString &cardName,
const QString &zoneName,
const QString &cardSetName,
const QString &cardSetCollectorNumber,
const QString &cardProviderId)
{
auto *zoneNode = dynamic_cast<InnerDecklistNode *>(root->findChild(zoneName));
if (zoneNode == nullptr) {
zoneNode = new InnerDecklistNode(zoneName, root);
}
auto *node = new DecklistCardNode(cardName, 1, zoneNode, cardSetName, cardSetCollectorNumber, cardProviderId);
updateDeckHash();
return node;
}
bool DeckList::deleteNode(AbstractDecklistNode *node, InnerDecklistNode *rootNode)
{
if (node == root) {
return true;
}
bool updateHash = false;
if (rootNode == nullptr) {
rootNode = root;
updateHash = true;
}
int index = rootNode->indexOf(node);
if (index != -1) {
delete rootNode->takeAt(index);
if (rootNode->empty()) {
deleteNode(rootNode, rootNode->getParent());
}
if (updateHash) {
updateDeckHash();
}
return true;
}
for (int i = 0; i < rootNode->size(); i++) {
auto *inner = dynamic_cast<InnerDecklistNode *>(rootNode->at(i));
if (inner) {
if (deleteNode(node, inner)) {
if (updateHash) {
updateDeckHash();
}
return true;
}
}
}
return false;
}
void DeckList::updateDeckHash()
{
QStringList cardList;
QSet<QString> hashZones, optionalZones;
hashZones << DECK_ZONE_MAIN << DECK_ZONE_SIDE; // Zones in deck to be included in hashing process
optionalZones << DECK_ZONE_TOKENS; // Optional zones in deck not included in hashing process
for (int i = 0; i < root->size(); i++) {
auto *node = dynamic_cast<InnerDecklistNode *>(root->at(i));
for (int j = 0; j < node->size(); j++) {
if (hashZones.contains(node->getName())) // Mainboard or Sideboard
{
auto *card = dynamic_cast<DecklistCardNode *>(node->at(j));
for (int k = 0; k < card->getNumber(); ++k) {
cardList.append((node->getName() == DECK_ZONE_SIDE ? "SB:" : "") + card->getName().toLower());
}
}
}
}
cardList.sort();
QByteArray deckHashArray = QCryptographicHash::hash(cardList.join(";").toUtf8(), QCryptographicHash::Sha1);
quint64 number = (((quint64)(unsigned char)deckHashArray[0]) << 32) +
(((quint64)(unsigned char)deckHashArray[1]) << 24) +
(((quint64)(unsigned char)deckHashArray[2] << 16)) +
(((quint64)(unsigned char)deckHashArray[3]) << 8) + (quint64)(unsigned char)deckHashArray[4];
deckHash = QString::number(number, 32).rightJustified(8, '0');
emit deckHashChanged();
}
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