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porymap/src/project.cpp
GriffinR dbd6afb0c3 Move metatile labels to tilesets
2023-02-14 14:43:05 -05:00

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#include "project.h"
#include "config.h"
#include "history.h"
#include "log.h"
#include "parseutil.h"
#include "paletteutil.h"
#include "tile.h"
#include "tileset.h"
#include "imageexport.h"
#include "map.h"
#include "orderedjson.h"
#include <QDir>
#include <QJsonArray>
#include <QJsonDocument>
#include <QJsonObject>
#include <QJsonValue>
#include <QFile>
#include <QTextStream>
#include <QStandardItem>
#include <QMessageBox>
#include <QRegularExpression>
#include <algorithm>
using OrderedJson = poryjson::Json;
using OrderedJsonDoc = poryjson::JsonDoc;
int Project::num_tiles_primary = 512;
int Project::num_tiles_total = 1024;
int Project::num_metatiles_primary = 512;
int Project::num_metatiles_total = 1024;
int Project::num_pals_primary = 6;
int Project::num_pals_total = 13;
int Project::max_map_data_size = 10240; // 0x2800
int Project::default_map_size = 20;
int Project::max_object_events = 64;
Project::Project(QWidget *parent) :
QObject(parent),
eventScriptLabelModel(this),
eventScriptLabelCompleter(this)
{
initSignals();
}
Project::~Project()
{
clearMapCache();
clearTilesetCache();
}
void Project::initSignals() {
// detect changes to specific filepaths being monitored
QObject::connect(&fileWatcher, &QFileSystemWatcher::fileChanged, [this](QString changed){
if (!porymapConfig.getMonitorFiles()) return;
if (modifiedFileTimestamps.contains(changed)) {
if (QDateTime::currentMSecsSinceEpoch() < modifiedFileTimestamps[changed]) {
return;
}
modifiedFileTimestamps.remove(changed);
}
static bool showing = false;
if (showing) return;
QMessageBox notice(this->parentWidget());
notice.setText("File Changed");
notice.setInformativeText(QString("The file %1 has changed on disk. Would you like to reload the project?")
.arg(changed.remove(this->root + "/")));
notice.setStandardButtons(QMessageBox::No | QMessageBox::Yes);
notice.setDefaultButton(QMessageBox::No);
notice.setIcon(QMessageBox::Question);
QCheckBox showAgainCheck("Do not ask again.");
notice.setCheckBox(&showAgainCheck);
showing = true;
int choice = notice.exec();
if (choice == QMessageBox::Yes) {
emit reloadProject();
} else if (choice == QMessageBox::No) {
if (showAgainCheck.isChecked()) {
porymapConfig.setMonitorFiles(false);
emit uncheckMonitorFilesAction();
}
}
showing = false;
});
}
void Project::set_root(QString dir) {
this->root = dir;
this->importExportPath = dir;
this->parser.set_root(dir);
}
QString Project::getProjectTitle() {
if (!root.isNull()) {
return root.section('/', -1);
} else {
return QString();
}
}
void Project::clearMapCache() {
for (auto *map : mapCache.values()) {
if (map)
delete map;
}
mapCache.clear();
emit mapCacheCleared();
}
void Project::clearTilesetCache() {
for (auto *tileset : tilesetCache.values()) {
if (tileset)
delete tileset;
}
tilesetCache.clear();
}
Map* Project::loadMap(QString map_name) {
Map *map;
if (mapCache.contains(map_name)) {
map = mapCache.value(map_name);
// TODO: uncomment when undo/redo history is fully implemented for all actions.
if (true/*map->hasUnsavedChanges()*/) {
return map;
}
} else {
map = new Map;
map->setName(map_name);
}
if (!(loadMapData(map) && loadMapLayout(map)))
return nullptr;
mapCache.insert(map_name, map);
return map;
}
void Project::setNewMapConnections(Map *map) {
map->connections.clear();
}
const QSet<QString> defaultTopLevelMapFields = {
"id",
"name",
"layout",
"music",
"region_map_section",
"requires_flash",
"weather",
"map_type",
"show_map_name",
"battle_scene",
"connections",
"object_events",
"warp_events",
"coord_events",
"bg_events",
"shared_events_map",
"shared_scripts_map",
};
QSet<QString> Project::getTopLevelMapFields() {
QSet<QString> topLevelMapFields = defaultTopLevelMapFields;
if (projectConfig.getMapAllowFlagsEnabled()) {
topLevelMapFields.insert("allow_cycling");
topLevelMapFields.insert("allow_escaping");
topLevelMapFields.insert("allow_running");
}
if (projectConfig.getFloorNumberEnabled()) {
topLevelMapFields.insert("floor_number");
}
return topLevelMapFields;
}
bool Project::loadMapData(Map* map) {
if (!map->isPersistedToFile) {
return true;
}
QString mapFilepath = QString("%1/%3%2/map.json").arg(root).arg(map->name).arg(projectConfig.getFilePath(ProjectFilePath::data_map_folders));
QJsonDocument mapDoc;
if (!parser.tryParseJsonFile(&mapDoc, mapFilepath)) {
logError(QString("Failed to read map data from %1").arg(mapFilepath));
return false;
}
QJsonObject mapObj = mapDoc.object();
map->song = ParseUtil::jsonToQString(mapObj["music"]);
map->layoutId = ParseUtil::jsonToQString(mapObj["layout"]);
map->location = ParseUtil::jsonToQString(mapObj["region_map_section"]);
map->requiresFlash = ParseUtil::jsonToBool(mapObj["requires_flash"]);
map->weather = ParseUtil::jsonToQString(mapObj["weather"]);
map->type = ParseUtil::jsonToQString(mapObj["map_type"]);
map->show_location = ParseUtil::jsonToBool(mapObj["show_map_name"]);
map->battle_scene = ParseUtil::jsonToQString(mapObj["battle_scene"]);
if (projectConfig.getMapAllowFlagsEnabled()) {
map->allowBiking = ParseUtil::jsonToBool(mapObj["allow_cycling"]);
map->allowEscaping = ParseUtil::jsonToBool(mapObj["allow_escaping"]);
map->allowRunning = ParseUtil::jsonToBool(mapObj["allow_running"]);
}
if (projectConfig.getFloorNumberEnabled()) {
map->floorNumber = ParseUtil::jsonToInt(mapObj["floor_number"]);
}
map->sharedEventsMap = ParseUtil::jsonToQString(mapObj["shared_events_map"]);
map->sharedScriptsMap = ParseUtil::jsonToQString(mapObj["shared_scripts_map"]);
// Events
map->events[Event::Group::Object].clear();
QJsonArray objectEventsArr = mapObj["object_events"].toArray();
bool hasCloneObjects = projectConfig.getEventCloneObjectEnabled();
for (int i = 0; i < objectEventsArr.size(); i++) {
QJsonObject event = objectEventsArr[i].toObject();
// If clone objects are not enabled then no type field is present
QString type = hasCloneObjects ? ParseUtil::jsonToQString(event["type"]) : "object";
if (type.isEmpty() || type == "object") {
ObjectEvent *object = new ObjectEvent();
object->loadFromJson(event, this);
map->addEvent(object);
} else if (type == "clone") {
CloneObjectEvent *clone = new CloneObjectEvent();
if (clone->loadFromJson(event, this)) {
map->addEvent(clone);
}
else {
delete clone;
}
} else {
logError(QString("Map %1 object_event %2 has invalid type '%3'. Must be 'object' or 'clone'.").arg(map->name).arg(i).arg(type));
}
}
map->events[Event::Group::Warp].clear();
QJsonArray warpEventsArr = mapObj["warp_events"].toArray();
for (int i = 0; i < warpEventsArr.size(); i++) {
QJsonObject event = warpEventsArr[i].toObject();
WarpEvent *warp = new WarpEvent();
if (warp->loadFromJson(event, this)) {
map->addEvent(warp);
}
else {
delete warp;
}
}
map->events[Event::Group::Coord].clear();
QJsonArray coordEventsArr = mapObj["coord_events"].toArray();
for (int i = 0; i < coordEventsArr.size(); i++) {
QJsonObject event = coordEventsArr[i].toObject();
QString type = ParseUtil::jsonToQString(event["type"]);
if (type == "trigger") {
TriggerEvent *coord = new TriggerEvent();
coord->loadFromJson(event, this);
map->addEvent(coord);
} else if (type == "weather") {
WeatherTriggerEvent *coord = new WeatherTriggerEvent();
coord->loadFromJson(event, this);
map->addEvent(coord);
} else {
logError(QString("Map %1 coord_event %2 has invalid type '%3'. Must be 'trigger' or 'weather'.").arg(map->name).arg(i).arg(type));
}
}
map->events[Event::Group::Bg].clear();
QJsonArray bgEventsArr = mapObj["bg_events"].toArray();
for (int i = 0; i < bgEventsArr.size(); i++) {
QJsonObject event = bgEventsArr[i].toObject();
QString type = ParseUtil::jsonToQString(event["type"]);
if (type == "sign") {
SignEvent *bg = new SignEvent();
bg->loadFromJson(event, this);
map->addEvent(bg);
} else if (type == "hidden_item") {
HiddenItemEvent *bg = new HiddenItemEvent();
bg->loadFromJson(event, this);
map->addEvent(bg);
} else if (type == "secret_base") {
SecretBaseEvent *bg = new SecretBaseEvent();
bg->loadFromJson(event, this);
map->addEvent(bg);
} else {
logError(QString("Map %1 bg_event %2 has invalid type '%3'. Must be 'sign', 'hidden_item', or 'secret_base'.").arg(map->name).arg(i).arg(type));
}
}
map->events[Event::Group::Heal].clear();
for (auto it = healLocations.begin(); it != healLocations.end(); it++) {
HealLocation loc = *it;
//if TRUE map is flyable / has healing location
if (loc.mapName == QString(mapNamesToMapConstants.value(map->name)).remove(0,4)) {
HealLocationEvent *heal = new HealLocationEvent();
heal->setMap(map);
heal->setX(loc.x);
heal->setY(loc.y);
heal->setElevation(3);
heal->setLocationName(loc.mapName);
heal->setIdName(loc.idName);
heal->setIndex(loc.index);
// TODO: what is this
// heal->put("destination_map_name", mapConstantsToMapNames.value(map->name));
if (projectConfig.getHealLocationRespawnDataEnabled()) {
heal->setRespawnMap(mapConstantsToMapNames.value(QString("MAP_" + loc.respawnMap)));
heal->setRespawnNPC(loc.respawnNPC);
}
map->events[Event::Group::Heal].append(heal);
}
}
map->connections.clear();
QJsonArray connectionsArr = mapObj["connections"].toArray();
if (!connectionsArr.isEmpty()) {
for (int i = 0; i < connectionsArr.size(); i++) {
QJsonObject connectionObj = connectionsArr[i].toObject();
MapConnection *connection = new MapConnection;
connection->direction = ParseUtil::jsonToQString(connectionObj["direction"]);
connection->offset = ParseUtil::jsonToInt(connectionObj["offset"]);
QString mapConstant = ParseUtil::jsonToQString(connectionObj["map"]);
if (mapConstantsToMapNames.contains(mapConstant)) {
connection->map_name = mapConstantsToMapNames.value(mapConstant);
map->connections.append(connection);
} else {
logError(QString("Failed to find connected map for map constant '%1'").arg(mapConstant));
}
}
}
// Check for custom fields
QSet<QString> baseFields = this->getTopLevelMapFields();
for (QString key : mapObj.keys()) {
if (!baseFields.contains(key)) {
map->customHeaders.insert(key, mapObj[key]);
}
}
return true;
}
QString Project::readMapLayoutId(QString map_name) {
if (mapCache.contains(map_name)) {
return mapCache.value(map_name)->layoutId;
}
QString mapFilepath = QString("%1/%3%2/map.json").arg(root).arg(map_name).arg(projectConfig.getFilePath(ProjectFilePath::data_map_folders));
QJsonDocument mapDoc;
if (!parser.tryParseJsonFile(&mapDoc, mapFilepath)) {
logError(QString("Failed to read map layout id from %1").arg(mapFilepath));
return QString();
}
QJsonObject mapObj = mapDoc.object();
return ParseUtil::jsonToQString(mapObj["layout"]);
}
QString Project::readMapLocation(QString map_name) {
if (mapCache.contains(map_name)) {
return mapCache.value(map_name)->location;
}
QString mapFilepath = QString("%1/%3%2/map.json").arg(root).arg(map_name).arg(projectConfig.getFilePath(ProjectFilePath::data_map_folders));
QJsonDocument mapDoc;
if (!parser.tryParseJsonFile(&mapDoc, mapFilepath)) {
logError(QString("Failed to read map's region map section from %1").arg(mapFilepath));
return QString();
}
QJsonObject mapObj = mapDoc.object();
return ParseUtil::jsonToQString(mapObj["region_map_section"]);
}
bool Project::loadLayout(MapLayout *layout) {
// Force these to run even if one fails
bool loadedTilesets = loadLayoutTilesets(layout);
bool loadedBlockdata = loadBlockdata(layout);
bool loadedBorder = loadLayoutBorder(layout);
return loadedTilesets
&& loadedBlockdata
&& loadedBorder;
}
bool Project::loadMapLayout(Map* map) {
if (!map->isPersistedToFile) {
return true;
}
if (mapLayouts.contains(map->layoutId)) {
map->layout = mapLayouts[map->layoutId];
} else {
logError(QString("Error: Map '%1' has an unknown layout '%2'").arg(map->name).arg(map->layoutId));
return false;
}
if (map->hasUnsavedChanges()) {
return true;
} else {
return loadLayout(map->layout);
}
}
bool Project::readMapLayouts() {
mapLayouts.clear();
mapLayoutsTable.clear();
QString layoutsFilepath = projectConfig.getFilePath(ProjectFilePath::json_layouts);
QString fullFilepath = QString("%1/%2").arg(root).arg(layoutsFilepath);
fileWatcher.addPath(fullFilepath);
QJsonDocument layoutsDoc;
if (!parser.tryParseJsonFile(&layoutsDoc, fullFilepath)) {
logError(QString("Failed to read map layouts from %1").arg(fullFilepath));
return false;
}
QJsonObject layoutsObj = layoutsDoc.object();
QJsonArray layouts = layoutsObj["layouts"].toArray();
if (layouts.size() == 0) {
logError(QString("'layouts' array is missing from %1.").arg(layoutsFilepath));
return false;
}
layoutsLabel = ParseUtil::jsonToQString(layoutsObj["layouts_table_label"]);
if (layoutsLabel.isNull()) {
layoutsLabel = "gMapLayouts";
logWarn(QString("'layouts_table_label' value is missing from %1. Defaulting to %2")
.arg(layoutsFilepath)
.arg(layoutsLabel));
}
QList<QString> requiredFields = QList<QString>{
"id",
"name",
"width",
"height",
"primary_tileset",
"secondary_tileset",
"border_filepath",
"blockdata_filepath",
};
bool useCustomBorderSize = projectConfig.getUseCustomBorderSize();
if (useCustomBorderSize) {
requiredFields.append("border_width");
requiredFields.append("border_height");
}
for (int i = 0; i < layouts.size(); i++) {
QJsonObject layoutObj = layouts[i].toObject();
if (layoutObj.isEmpty())
continue;
if (!parser.ensureFieldsExist(layoutObj, requiredFields)) {
logError(QString("Layout %1 is missing field(s) in %2.").arg(i).arg(layoutsFilepath));
return false;
}
MapLayout *layout = new MapLayout();
layout->id = ParseUtil::jsonToQString(layoutObj["id"]);
if (layout->id.isEmpty()) {
logError(QString("Missing 'id' value on layout %1 in %2").arg(i).arg(layoutsFilepath));
delete layout;
return false;
}
if (mapLayouts.contains(layout->id)) {
logWarn(QString("Duplicate layout entry for %1 in %2 will be ignored.").arg(layout->id).arg(layoutsFilepath));
delete layout;
continue;
}
layout->name = ParseUtil::jsonToQString(layoutObj["name"]);
if (layout->name.isEmpty()) {
logError(QString("Missing 'name' value for %1 in %2").arg(layout->id).arg(layoutsFilepath));
delete layout;
return false;
}
int lwidth = ParseUtil::jsonToInt(layoutObj["width"]);
if (lwidth <= 0) {
logError(QString("Invalid 'width' value '%1' for %2 in %3. Must be greater than 0.").arg(lwidth).arg(layout->id).arg(layoutsFilepath));
delete layout;
return false;
}
layout->width = lwidth;
int lheight = ParseUtil::jsonToInt(layoutObj["height"]);
if (lheight <= 0) {
logError(QString("Invalid 'height' value '%1' for %2 in %3. Must be greater than 0.").arg(lheight).arg(layout->id).arg(layoutsFilepath));
delete layout;
return false;
}
layout->height = lheight;
if (useCustomBorderSize) {
int bwidth = ParseUtil::jsonToInt(layoutObj["border_width"]);
if (bwidth <= 0) { // 0 is an expected border width/height that should be handled, GF used it for the RS layouts in FRLG
logWarn(QString("Invalid 'border_width' value '%1' for %2 in %3. Must be greater than 0. Using default (%4) instead.")
.arg(bwidth).arg(layout->id).arg(layoutsFilepath).arg(DEFAULT_BORDER_WIDTH));
bwidth = DEFAULT_BORDER_WIDTH;
}
layout->border_width = bwidth;
int bheight = ParseUtil::jsonToInt(layoutObj["border_height"]);
if (bheight <= 0) {
logWarn(QString("Invalid 'border_height' value '%1' for %2 in %3. Must be greater than 0. Using default (%4) instead.")
.arg(bheight).arg(layout->id).arg(layoutsFilepath).arg(DEFAULT_BORDER_HEIGHT));
bheight = DEFAULT_BORDER_HEIGHT;
}
layout->border_height = bheight;
} else {
layout->border_width = DEFAULT_BORDER_WIDTH;
layout->border_height = DEFAULT_BORDER_HEIGHT;
}
layout->tileset_primary_label = ParseUtil::jsonToQString(layoutObj["primary_tileset"]);
if (layout->tileset_primary_label.isEmpty()) {
logError(QString("Missing 'primary_tileset' value for %1 in %2").arg(layout->id).arg(layoutsFilepath));
delete layout;
return false;
}
layout->tileset_secondary_label = ParseUtil::jsonToQString(layoutObj["secondary_tileset"]);
if (layout->tileset_secondary_label.isEmpty()) {
logError(QString("Missing 'secondary_tileset' value for %1 in %2").arg(layout->id).arg(layoutsFilepath));
delete layout;
return false;
}
layout->border_path = ParseUtil::jsonToQString(layoutObj["border_filepath"]);
if (layout->border_path.isEmpty()) {
logError(QString("Missing 'border_filepath' value for %1 in %2").arg(layout->id).arg(layoutsFilepath));
delete layout;
return false;
}
layout->blockdata_path = ParseUtil::jsonToQString(layoutObj["blockdata_filepath"]);
if (layout->blockdata_path.isEmpty()) {
logError(QString("Missing 'blockdata_filepath' value for %1 in %2").arg(layout->id).arg(layoutsFilepath));
delete layout;
return false;
}
mapLayouts.insert(layout->id, layout);
mapLayoutsTable.append(layout->id);
}
// Deep copy
mapLayoutsMaster = mapLayouts;
mapLayoutsMaster.detach();
mapLayoutsTableMaster = mapLayoutsTable;
mapLayoutsTableMaster.detach();
return true;
}
void Project::saveMapLayouts() {
QString layoutsFilepath = root + "/" + projectConfig.getFilePath(ProjectFilePath::json_layouts);
QFile layoutsFile(layoutsFilepath);
if (!layoutsFile.open(QIODevice::WriteOnly)) {
logError(QString("Error: Could not open %1 for writing").arg(layoutsFilepath));
return;
}
OrderedJson::object layoutsObj;
layoutsObj["layouts_table_label"] = layoutsLabel;
bool useCustomBorderSize = projectConfig.getUseCustomBorderSize();
OrderedJson::array layoutsArr;
for (QString layoutId : mapLayoutsTableMaster) {
MapLayout *layout = mapLayouts.value(layoutId);
OrderedJson::object layoutObj;
layoutObj["id"] = layout->id;
layoutObj["name"] = layout->name;
layoutObj["width"] = layout->width;
layoutObj["height"] = layout->height;
if (useCustomBorderSize) {
layoutObj["border_width"] = layout->border_width;
layoutObj["border_height"] = layout->border_height;
}
layoutObj["primary_tileset"] = layout->tileset_primary_label;
layoutObj["secondary_tileset"] = layout->tileset_secondary_label;
layoutObj["border_filepath"] = layout->border_path;
layoutObj["blockdata_filepath"] = layout->blockdata_path;
layoutsArr.push_back(layoutObj);
}
ignoreWatchedFileTemporarily(layoutsFilepath);
layoutsObj["layouts"] = layoutsArr;
OrderedJson layoutJson(layoutsObj);
OrderedJsonDoc jsonDoc(&layoutJson);
jsonDoc.dump(&layoutsFile);
layoutsFile.close();
}
void Project::ignoreWatchedFileTemporarily(QString filepath) {
// Ignore any file-change events for this filepath for the next 5 seconds.
modifiedFileTimestamps.insert(filepath, QDateTime::currentMSecsSinceEpoch() + 5000);
}
void Project::saveMapGroups() {
QString mapGroupsFilepath = QString("%1/%2").arg(root).arg(projectConfig.getFilePath(ProjectFilePath::json_map_groups));
QFile mapGroupsFile(mapGroupsFilepath);
if (!mapGroupsFile.open(QIODevice::WriteOnly)) {
logError(QString("Error: Could not open %1 for writing").arg(mapGroupsFilepath));
return;
}
OrderedJson::object mapGroupsObj;
OrderedJson::array groupNamesArr;
for (QString groupName : this->groupNames) {
groupNamesArr.push_back(groupName);
}
mapGroupsObj["group_order"] = groupNamesArr;
int groupNum = 0;
for (QStringList mapNames : groupedMapNames) {
OrderedJson::array groupArr;
for (QString mapName : mapNames) {
groupArr.push_back(mapName);
}
mapGroupsObj[this->groupNames.at(groupNum)] = groupArr;
groupNum++;
}
ignoreWatchedFileTemporarily(mapGroupsFilepath);
OrderedJson mapGroupJson(mapGroupsObj);
OrderedJsonDoc jsonDoc(&mapGroupJson);
jsonDoc.dump(&mapGroupsFile);
mapGroupsFile.close();
}
void Project::saveWildMonData() {
if (!userConfig.getEncounterJsonActive()) return;
QString wildEncountersJsonFilepath = QString("%1/%2").arg(root).arg(projectConfig.getFilePath(ProjectFilePath::json_wild_encounters));
QFile wildEncountersFile(wildEncountersJsonFilepath);
if (!wildEncountersFile.open(QIODevice::WriteOnly)) {
logError(QString("Error: Could not open %1 for writing").arg(wildEncountersJsonFilepath));
return;
}
OrderedJson::object wildEncountersObject;
OrderedJson::array wildEncounterGroups;
// gWildMonHeaders label is not mutable
OrderedJson::object monHeadersObject;
monHeadersObject["label"] = "gWildMonHeaders";
monHeadersObject["for_maps"] = true;
OrderedJson::array fieldsInfoArray;
for (EncounterField fieldInfo : wildMonFields) {
OrderedJson::object fieldObject;
OrderedJson::array rateArray;
for (int rate : fieldInfo.encounterRates) {
rateArray.push_back(rate);
}
fieldObject["type"] = fieldInfo.name;
fieldObject["encounter_rates"] = rateArray;
OrderedJson::object groupsObject;
for (auto groupNamePair : fieldInfo.groups) {
QString groupName = groupNamePair.first;
OrderedJson::array subGroupIndices;
std::sort(fieldInfo.groups[groupName].begin(), fieldInfo.groups[groupName].end());
for (int slotIndex : fieldInfo.groups[groupName]) {
subGroupIndices.push_back(slotIndex);
}
groupsObject[groupName] = subGroupIndices;
}
if (!groupsObject.empty()) fieldObject["groups"] = groupsObject;
fieldsInfoArray.append(fieldObject);
}
monHeadersObject["fields"] = fieldsInfoArray;
OrderedJson::array encountersArray;
for (auto keyPair : wildMonData) {
QString key = keyPair.first;
for (auto grouplLabelPair : wildMonData[key]) {
QString groupLabel = grouplLabelPair.first;
OrderedJson::object encounterObject;
encounterObject["map"] = key;
encounterObject["base_label"] = groupLabel;
WildPokemonHeader encounterHeader = wildMonData[key][groupLabel];
for (auto fieldNamePair : encounterHeader.wildMons) {
QString fieldName = fieldNamePair.first;
OrderedJson::object fieldObject;
WildMonInfo monInfo = encounterHeader.wildMons[fieldName];
fieldObject["encounter_rate"] = monInfo.encounterRate;
OrderedJson::array monArray;
for (WildPokemon wildMon : monInfo.wildPokemon) {
OrderedJson::object monEntry;
monEntry["min_level"] = wildMon.minLevel;
monEntry["max_level"] = wildMon.maxLevel;
monEntry["species"] = wildMon.species;
monArray.push_back(monEntry);
}
fieldObject["mons"] = monArray;
encounterObject[fieldName] = fieldObject;
}
encountersArray.push_back(encounterObject);
}
}
monHeadersObject["encounters"] = encountersArray;
wildEncounterGroups.push_back(monHeadersObject);
// add extra Json objects that are not associated with maps to the file
for (auto extraObject : extraEncounterGroups) {
wildEncounterGroups.push_back(extraObject);
}
wildEncountersObject["wild_encounter_groups"] = wildEncounterGroups;
ignoreWatchedFileTemporarily(wildEncountersJsonFilepath);
OrderedJson encounterJson(wildEncountersObject);
OrderedJsonDoc jsonDoc(&encounterJson);
jsonDoc.dump(&wildEncountersFile);
wildEncountersFile.close();
}
void Project::saveMapConstantsHeader() {
QString text = QString("#ifndef GUARD_CONSTANTS_MAP_GROUPS_H\n");
text += QString("#define GUARD_CONSTANTS_MAP_GROUPS_H\n");
text += QString("\n//\n// DO NOT MODIFY THIS FILE! It is auto-generated from %1\n//\n\n")
.arg(projectConfig.getFilePath(ProjectFilePath::json_map_groups));
int groupNum = 0;
for (QStringList mapNames : groupedMapNames) {
text += "// " + groupNames.at(groupNum) + "\n";
int maxLength = 0;
for (QString mapName : mapNames) {
QString mapConstantName = mapNamesToMapConstants.value(mapName);
if (mapConstantName.length() > maxLength)
maxLength = mapConstantName.length();
}
int groupIndex = 0;
for (QString mapName : mapNames) {
QString mapConstantName = mapNamesToMapConstants.value(mapName);
text += QString("#define %1%2(%3 | (%4 << 8))\n")
.arg(mapConstantName)
.arg(QString(" ").repeated(maxLength - mapConstantName.length() + 1))
.arg(groupIndex)
.arg(groupNum);
groupIndex++;
}
text += QString("\n");
groupNum++;
}
text += QString("#define MAP_GROUPS_COUNT %1\n\n").arg(groupNum);
text += QString("#endif // GUARD_CONSTANTS_MAP_GROUPS_H\n");
QString mapGroupFilepath = root + "/" + projectConfig.getFilePath(ProjectFilePath::constants_map_groups);
ignoreWatchedFileTemporarily(mapGroupFilepath);
saveTextFile(mapGroupFilepath, text);
}
void Project::saveHealLocations(Map *map) {
this->saveHealLocationsData(map);
this->saveHealLocationsConstants();
}
// Saves heal location maps/coords/respawn data in root + /src/data/heal_locations.h
void Project::saveHealLocationsData(Map *map) {
// Update heal locations from map
if (map->events[Event::Group::Heal].length() > 0) {
for (Event *healEvent : map->events[Event::Group::Heal]) {
HealLocation hl = HealLocation::fromEvent(healEvent);
this->healLocations[hl.index - 1] = hl;
}
}
// Find any duplicate constant names
QMap<QString, int> healLocationsDupes;
QSet<QString> healLocationsUnique;
for (auto hl : this->healLocations) {
QString idName = hl.idName;
if (healLocationsUnique.contains(idName))
healLocationsDupes[idName] = 1;
else
healLocationsUnique.insert(idName);
}
// Create the definition text for each data table
bool respawnEnabled = projectConfig.getHealLocationRespawnDataEnabled();
QString arrayName = respawnEnabled ? "sSpawnPoints" : "sHealLocations";
const QString qualifiers = QString(healLocationDataQualifiers.isStatic ? "static " : "")
+ QString(healLocationDataQualifiers.isConst ? "const " : "");
QString locationTableText = QString("%1struct HealLocation %2[] =\n{\n").arg(qualifiers).arg(arrayName);
QString respawnMapTableText, respawnNPCTableText;
if (respawnEnabled) {
respawnMapTableText = QString("\n%1u16 sWhiteoutRespawnHealCenterMapIdxs[][2] =\n{\n").arg(qualifiers);
respawnNPCTableText = QString("\n%1u8 sWhiteoutRespawnHealerNpcIds[] =\n{\n").arg(qualifiers);
}
// Populate the data tables with the heal location data
int i = 0;
const QString emptyMapName = "UNDEFINED"; // TODO: Use a project-wide constant here?
for (auto hl : this->healLocations) {
// Add numbered suffix for duplicate constants
if (healLocationsDupes.keys().contains(hl.idName)) {
QString duplicateName = hl.idName;
hl.idName += QString("_%1").arg(healLocationsDupes[duplicateName]);
healLocationsDupes[duplicateName]++;
this->healLocations[i].idName = hl.idName; // Update the name for writing constants later
}
// Add entry to map/coords table
QString mapName = !hl.mapName.isEmpty() ? hl.mapName : emptyMapName;
locationTableText += QString(" [%1 - 1] = {MAP_GROUP(%2), MAP_NUM(%2), %3, %4},\n")
.arg(hl.idName)
.arg(mapName)
.arg(hl.x)
.arg(hl.y);
// Add entry to respawn map and npc tables
if (respawnEnabled) {
mapName = !hl.respawnMap.isEmpty() ? hl.respawnMap : emptyMapName;
respawnMapTableText += QString(" [%1 - 1] = {MAP_GROUP(%2), MAP_NUM(%2)},\n")
.arg(hl.idName)
.arg(mapName);
respawnNPCTableText += QString(" [%1 - 1] = %2,\n")
.arg(hl.idName)
.arg(hl.respawnNPC);
}
i++;
}
const QString tableEnd = QString("};\n");
QString text = locationTableText + tableEnd;
if (respawnEnabled)
text += respawnMapTableText + tableEnd + respawnNPCTableText + tableEnd;
QString filepath = root + "/" + projectConfig.getFilePath(ProjectFilePath::data_heal_locations);
ignoreWatchedFileTemporarily(filepath);
saveTextFile(filepath, text);
}
// Saves heal location defines in root + /include/constants/heal_locations.h
void Project::saveHealLocationsConstants() {
// Get existing defines, and create an inverted map so they'll be in sorted order for printing
int nextDefineValue = 1;
QMap<int, QString> valuesToNames = QMap<int, QString>();
QStringList defineNames = this->healLocationNameToValue.keys();
QList<int> defineValues = this->healLocationNameToValue.values();
for (auto name : defineNames) {
int value = this->healLocationNameToValue.value(name);
if (valuesToNames.contains(value)) {
do { // Redefine duplicate as first available value
value = nextDefineValue++;
} while (defineValues.contains(value));
}
valuesToNames.insert(value, name);
}
// Check for new id names in the heal locations list
for (auto hl : this->healLocations) {
if (this->healLocationNameToValue.contains(hl.idName))
continue;
int value;
do { // Give new heal location first available value
value = nextDefineValue++;
} while (valuesToNames.contains(value));
valuesToNames.insert(value, hl.idName);
}
// Include guards
const QString guardName = "GUARD_CONSTANTS_HEAL_LOCATIONS_H";
QString constantsText = QString("#ifndef %1\n#define %1\n\n").arg(guardName);
// List defines in ascending order
QMap<int, QString>::const_iterator i;
for (i = valuesToNames.constBegin(); i != valuesToNames.constEnd(); i++)
constantsText += QString("#define %1 %2\n").arg(i.value()).arg(i.key());
constantsText += QString("\n#endif // %1\n").arg(guardName);
QString filepath = root + "/" + projectConfig.getFilePath(ProjectFilePath::constants_heal_locations);
ignoreWatchedFileTemporarily(filepath);
saveTextFile(filepath, constantsText);
}
void Project::saveTilesets(Tileset *primaryTileset, Tileset *secondaryTileset) {
saveTilesetMetatileLabels(primaryTileset, secondaryTileset);
saveTilesetMetatileAttributes(primaryTileset);
saveTilesetMetatileAttributes(secondaryTileset);
saveTilesetMetatiles(primaryTileset);
saveTilesetMetatiles(secondaryTileset);
saveTilesetTilesImage(primaryTileset);
saveTilesetTilesImage(secondaryTileset);
saveTilesetPalettes(primaryTileset);
saveTilesetPalettes(secondaryTileset);
}
void Project::saveTilesetMetatileLabels(Tileset *primaryTileset, Tileset *secondaryTileset) {
QString primaryPrefix = QString("METATILE_%1_").arg(QString(primaryTileset->name).replace("gTileset_", ""));
QString secondaryPrefix = QString("METATILE_%1_").arg(QString(secondaryTileset->name).replace("gTileset_", ""));
QMap<QString, int> defines;
bool definesFileModified = false;
QString metatileLabelsFilename = projectConfig.getFilePath(ProjectFilePath::constants_metatile_labels);
defines = parser.readCDefines(metatileLabelsFilename, (QStringList() << "METATILE_"));
// Purge old entries from the file.
QStringList definesToRemove;
for (QString defineName : defines.keys()) {
if (defineName.startsWith(primaryPrefix) || defineName.startsWith(secondaryPrefix)) {
definesToRemove << defineName;
}
}
for (QString defineName : definesToRemove) {
defines.remove(defineName);
definesFileModified = true;
}
// Add the new labels.
for (int metatileId : primaryTileset->metatileLabels.keys()) {
QString defineName = QString("%1%2").arg(primaryPrefix, primaryTileset->metatileLabels.value(metatileId));
defines.insert(defineName, metatileId);
definesFileModified = true;
}
for (int metatileId : secondaryTileset->metatileLabels.keys()) {
QString defineName = QString("%1%2").arg(secondaryPrefix, secondaryTileset->metatileLabels.value(metatileId));
defines.insert(defineName, metatileId);
definesFileModified = true;
}
if (!definesFileModified) {
return;
}
auto getTilesetFromLabel = [](QString labelName) {
static const QRegularExpression re_tilesetName("METATILE_(?<tileset>[A-Za-z0-9]+)_");
return re_tilesetName.match(labelName).captured("tileset");
};
QString outputText = "#ifndef GUARD_METATILE_LABELS_H\n";
outputText += "#define GUARD_METATILE_LABELS_H\n";
for (int i = 0; i < defines.size();) {
QString defineName = defines.keys()[i];
QString currentTileset = getTilesetFromLabel(defineName);
outputText += QString("\n// gTileset_%1\n").arg(currentTileset);
int j = 0, longestLength = 0;
QMap<QString, int> definesOut;
// Setup for pretty formatting.
while (i + j < defines.size() && getTilesetFromLabel(defines.keys()[i + j]) == currentTileset) {
defineName = defines.keys()[i + j];
if (defineName.size() > longestLength)
longestLength = defineName.size();
definesOut.insert(defineName, defines[defineName]);
j++;
}
for (QString defineName : definesOut.keys()) {
int value = defines[defineName];
QString line = QString("#define %1 0x%2\n")
.arg(defineName, -1 * longestLength)
.arg(QString("%1").arg(value, 3, 16, QChar('0')).toUpper());
outputText += line;
}
i += j;
}
outputText += "\n#endif // GUARD_METATILE_LABELS_H\n";
ignoreWatchedFileTemporarily(root + "/" + metatileLabelsFilename);
saveTextFile(root + "/" + metatileLabelsFilename, outputText);
}
void Project::saveTilesetMetatileAttributes(Tileset *tileset) {
QFile attrs_file(tileset->metatile_attrs_path);
if (attrs_file.open(QIODevice::WriteOnly | QIODevice::Truncate)) {
QByteArray data;
int attrSize = projectConfig.getMetatileAttributesSize();
for (Metatile *metatile : tileset->metatiles) {
uint32_t attributes = metatile->getAttributes();
for (int i = 0; i < attrSize; i++)
data.append(static_cast<char>(attributes >> (8 * i)));
}
attrs_file.write(data);
} else {
logError(QString("Could not save tileset metatile attributes file '%1'").arg(tileset->metatile_attrs_path));
}
}
void Project::saveTilesetMetatiles(Tileset *tileset) {
QFile metatiles_file(tileset->metatiles_path);
if (metatiles_file.open(QIODevice::WriteOnly | QIODevice::Truncate)) {
QByteArray data;
int numTiles = projectConfig.getNumTilesInMetatile();
for (Metatile *metatile : tileset->metatiles) {
for (int i = 0; i < numTiles; i++) {
uint16_t tile = metatile->tiles.at(i).rawValue();
data.append(static_cast<char>(tile));
data.append(static_cast<char>(tile >> 8));
}
}
metatiles_file.write(data);
} else {
tileset->metatiles.clear();
logError(QString("Could not open tileset metatiles file '%1'").arg(tileset->metatiles_path));
}
}
void Project::saveTilesetTilesImage(Tileset *tileset) {
exportIndexed4BPPPng(tileset->tilesImage, tileset->tilesImagePath);
}
void Project::saveTilesetPalettes(Tileset *tileset) {
for (int i = 0; i < Project::getNumPalettesTotal(); i++) {
QString filepath = tileset->palettePaths.at(i);
PaletteUtil::writeJASC(filepath, tileset->palettes.at(i).toVector(), 0, 16);
}
}
bool Project::loadLayoutTilesets(MapLayout *layout) {
layout->tileset_primary = getTileset(layout->tileset_primary_label);
if (!layout->tileset_primary) {
QString defaultTileset = this->getDefaultPrimaryTilesetLabel();
logWarn(QString("Map layout %1 has invalid primary tileset '%2'. Using default '%3'").arg(layout->id).arg(layout->tileset_primary_label).arg(defaultTileset));
layout->tileset_primary_label = defaultTileset;
layout->tileset_primary = getTileset(layout->tileset_primary_label);
if (!layout->tileset_primary) {
logError(QString("Failed to set default primary tileset."));
return false;
}
}
layout->tileset_secondary = getTileset(layout->tileset_secondary_label);
if (!layout->tileset_secondary) {
QString defaultTileset = this->getDefaultSecondaryTilesetLabel();
logWarn(QString("Map layout %1 has invalid secondary tileset '%2'. Using default '%3'").arg(layout->id).arg(layout->tileset_secondary_label).arg(defaultTileset));
layout->tileset_secondary_label = defaultTileset;
layout->tileset_secondary = getTileset(layout->tileset_secondary_label);
if (!layout->tileset_secondary) {
logError(QString("Failed to set default secondary tileset."));
return false;
}
}
return true;
}
Tileset* Project::loadTileset(QString label, Tileset *tileset) {
auto memberMap = Tileset::getHeaderMemberMap(this->usingAsmTilesets);
if (this->usingAsmTilesets) {
// Read asm tileset header. Backwards compatibility
const QStringList values = parser.getLabelValues(parser.parseAsm(projectConfig.getFilePath(ProjectFilePath::tilesets_headers_asm)), label);
if (values.isEmpty()) {
return nullptr;
}
if (tileset == nullptr) {
tileset = new Tileset;
}
tileset->name = label;
tileset->is_secondary = ParseUtil::gameStringToBool(values.value(memberMap.key("isSecondary")));
tileset->tiles_label = values.value(memberMap.key("tiles"));
tileset->palettes_label = values.value(memberMap.key("palettes"));
tileset->metatiles_label = values.value(memberMap.key("metatiles"));
tileset->metatile_attrs_label = values.value(memberMap.key("metatileAttributes"));
} else {
// Read C tileset header
const auto structs = parser.readCStructs(projectConfig.getFilePath(ProjectFilePath::tilesets_headers), label, memberMap);
if (!structs.contains(label)) {
return nullptr;
}
if (tileset == nullptr) {
tileset = new Tileset;
}
const auto tilesetAttributes = structs[label];
tileset->name = label;
tileset->is_secondary = ParseUtil::gameStringToBool(tilesetAttributes.value("isSecondary"));
tileset->tiles_label = tilesetAttributes.value("tiles");
tileset->palettes_label = tilesetAttributes.value("palettes");
tileset->metatiles_label = tilesetAttributes.value("metatiles");
tileset->metatile_attrs_label = tilesetAttributes.value("metatileAttributes");
}
loadTilesetAssets(tileset);
tilesetCache.insert(label, tileset);
return tileset;
}
bool Project::loadBlockdata(MapLayout *layout) {
QString path = QString("%1/%2").arg(root).arg(layout->blockdata_path);
layout->blockdata = readBlockdata(path);
layout->lastCommitBlocks.blocks = layout->blockdata;
layout->lastCommitBlocks.mapDimensions = QSize(layout->getWidth(), layout->getHeight());
if (layout->blockdata.count() != layout->getWidth() * layout->getHeight()) {
logWarn(QString("Layout blockdata length %1 does not match dimensions %2x%3 (should be %4). Resizing blockdata.")
.arg(layout->blockdata.count())
.arg(layout->getWidth())
.arg(layout->getHeight())
.arg(layout->getWidth() * layout->getHeight()));
layout->blockdata.resize(layout->getWidth() * layout->getHeight());
}
return true;
}
void Project::setNewMapBlockdata(Map *map) {
map->layout->blockdata.clear();
int width = map->getWidth();
int height = map->getHeight();
Block block(projectConfig.getNewMapMetatileId(), 0, projectConfig.getNewMapElevation());
for (int i = 0; i < width * height; i++) {
map->layout->blockdata.append(block);
}
map->layout->lastCommitBlocks.blocks = map->layout->blockdata;
map->layout->lastCommitBlocks.mapDimensions = QSize(width, height);
}
bool Project::loadLayoutBorder(MapLayout *layout) {
QString path = QString("%1/%2").arg(root).arg(layout->border_path);
layout->border = readBlockdata(path);
layout->lastCommitBlocks.border = layout->border;
layout->lastCommitBlocks.borderDimensions = QSize(layout->getBorderWidth(), layout->getBorderHeight());
int borderLength = layout->getBorderWidth() * layout->getBorderHeight();
if (layout->border.count() != borderLength) {
logWarn(QString("Layout border blockdata length %1 must be %2. Resizing border blockdata.")
.arg(layout->border.count())
.arg(borderLength));
layout->border.resize(borderLength);
}
return true;
}
void Project::setNewMapBorder(Map *map) {
map->layout->border.clear();
int width = map->getBorderWidth();
int height = map->getBorderHeight();
if (width != DEFAULT_BORDER_WIDTH || height != DEFAULT_BORDER_HEIGHT) {
for (int i = 0; i < width * height; i++) {
map->layout->border.append(0);
}
} else {
QList<int> metatileIds = projectConfig.getNewMapBorderMetatileIds();
for (int i = 0; i < DEFAULT_BORDER_WIDTH * DEFAULT_BORDER_HEIGHT; i++) {
map->layout->border.append(qint16(metatileIds.at(i)));
}
}
map->layout->lastCommitBlocks.border = map->layout->border;
map->layout->lastCommitBlocks.borderDimensions = QSize(width, height);
}
void Project::saveLayoutBorder(Map *map) {
QString path = QString("%1/%2").arg(root).arg(map->layout->border_path);
writeBlockdata(path, map->layout->border);
}
void Project::saveLayoutBlockdata(Map* map) {
QString path = QString("%1/%2").arg(root).arg(map->layout->blockdata_path);
writeBlockdata(path, map->layout->blockdata);
}
void Project::writeBlockdata(QString path, const Blockdata &blockdata) {
QFile file(path);
if (file.open(QIODevice::WriteOnly)) {
QByteArray data = blockdata.serialize();
file.write(data);
} else {
logError(QString("Failed to open blockdata file for writing: '%1'").arg(path));
}
}
void Project::saveAllMaps() {
for (auto *map : mapCache.values())
saveMap(map);
}
void Project::saveMap(Map *map) {
// Create/Modify a few collateral files for brand new maps.
QString basePath = projectConfig.getFilePath(ProjectFilePath::data_map_folders);
QString mapDataDir = root + "/" + basePath + map->name;
if (!map->isPersistedToFile) {
if (!QDir::root().mkdir(mapDataDir)) {
logError(QString("Error: failed to create directory for new map: '%1'").arg(mapDataDir));
}
// Create file data/maps/<map_name>/scripts.inc
QString text = this->getScriptDefaultString(projectConfig.getUsePoryScript(), map->name);
saveTextFile(mapDataDir + "/scripts" + this->getScriptFileExtension(projectConfig.getUsePoryScript()), text);
bool usesTextFile = projectConfig.getCreateMapTextFileEnabled();
if (usesTextFile) {
// Create file data/maps/<map_name>/text.inc
saveTextFile(mapDataDir + "/text" + this->getScriptFileExtension(projectConfig.getUsePoryScript()), "\n");
}
// Simply append to data/event_scripts.s.
text = QString("\n\t.include \"%1%2/scripts.inc\"\n").arg(basePath, map->name);
if (usesTextFile) {
text += QString("\t.include \"%1%2/text.inc\"\n").arg(basePath, map->name);
}
appendTextFile(root + "/" + projectConfig.getFilePath(ProjectFilePath::data_event_scripts), text);
if (map->needsLayoutDir) {
QString newLayoutDir = QString(root + "/%1%2").arg(projectConfig.getFilePath(ProjectFilePath::data_layouts_folders), map->name);
if (!QDir::root().mkdir(newLayoutDir)) {
logError(QString("Error: failed to create directory for new layout: '%1'").arg(newLayoutDir));
}
}
}
// Create map.json for map data.
QString mapFilepath = QString("%1/map.json").arg(mapDataDir);
QFile mapFile(mapFilepath);
if (!mapFile.open(QIODevice::WriteOnly)) {
logError(QString("Error: Could not open %1 for writing").arg(mapFilepath));
return;
}
OrderedJson::object mapObj;
// Header values.
mapObj["id"] = map->constantName;
mapObj["name"] = map->name;
mapObj["layout"] = map->layout->id;
mapObj["music"] = map->song;
mapObj["region_map_section"] = map->location;
mapObj["requires_flash"] = map->requiresFlash;
mapObj["weather"] = map->weather;
mapObj["map_type"] = map->type;
if (projectConfig.getMapAllowFlagsEnabled()) {
mapObj["allow_cycling"] = map->allowBiking;
mapObj["allow_escaping"] = map->allowEscaping;
mapObj["allow_running"] = map->allowRunning;
}
mapObj["show_map_name"] = map->show_location;
if (projectConfig.getFloorNumberEnabled()) {
mapObj["floor_number"] = map->floorNumber;
}
mapObj["battle_scene"] = map->battle_scene;
// Connections
if (map->connections.length() > 0) {
OrderedJson::array connectionsArr;
for (MapConnection* connection : map->connections) {
if (mapNamesToMapConstants.contains(connection->map_name)) {
OrderedJson::object connectionObj;
connectionObj["map"] = this->mapNamesToMapConstants.value(connection->map_name);
connectionObj["offset"] = connection->offset;
connectionObj["direction"] = connection->direction;
connectionsArr.append(connectionObj);
} else {
logError(QString("Failed to write map connection. '%1' is not a valid map name").arg(connection->map_name));
}
}
mapObj["connections"] = connectionsArr;
} else {
mapObj["connections"] = QJsonValue::Null;
}
if (map->sharedEventsMap.isEmpty()) {
// Object events
OrderedJson::array objectEventsArr;
for (int i = 0; i < map->events[Event::Group::Object].length(); i++) {
Event *event = map->events[Event::Group::Object].value(i);
OrderedJson::object jsonObj = event->buildEventJson(this);
objectEventsArr.push_back(jsonObj);
}
mapObj["object_events"] = objectEventsArr;
// Warp events
OrderedJson::array warpEventsArr;
for (int i = 0; i < map->events[Event::Group::Warp].length(); i++) {
Event *event = map->events[Event::Group::Warp].value(i);
OrderedJson::object warpObj = event->buildEventJson(this);
warpEventsArr.append(warpObj);
}
mapObj["warp_events"] = warpEventsArr;
// Coord events
OrderedJson::array coordEventsArr;
for (int i = 0; i < map->events[Event::Group::Coord].length(); i++) {
Event *event = map->events[Event::Group::Coord].value(i);
OrderedJson::object triggerObj = event->buildEventJson(this);
coordEventsArr.append(triggerObj);
}
mapObj["coord_events"] = coordEventsArr;
// Bg Events
OrderedJson::array bgEventsArr;
for (int i = 0; i < map->events[Event::Group::Bg].length(); i++) {
Event *event = map->events[Event::Group::Bg].value(i);
OrderedJson::object bgObj = event->buildEventJson(this);
bgEventsArr.append(bgObj);
}
mapObj["bg_events"] = bgEventsArr;
} else {
mapObj["shared_events_map"] = map->sharedEventsMap;
}
if (!map->sharedScriptsMap.isEmpty()) {
mapObj["shared_scripts_map"] = map->sharedScriptsMap;
}
// Custom header fields.
for (QString key : map->customHeaders.keys()) {
mapObj[key] = OrderedJson::fromQJsonValue(map->customHeaders[key]);
}
OrderedJson mapJson(mapObj);
OrderedJsonDoc jsonDoc(&mapJson);
jsonDoc.dump(&mapFile);
mapFile.close();
saveLayoutBorder(map);
saveLayoutBlockdata(map);
saveHealLocations(map);
// Update global data structures with current map data.
updateMapLayout(map);
map->isPersistedToFile = true;
map->hasUnsavedDataChanges = false;
map->editHistory.setClean();
}
void Project::updateMapLayout(Map* map) {
if (!mapLayoutsTableMaster.contains(map->layoutId)) {
mapLayoutsTableMaster.append(map->layoutId);
}
// Deep copy
MapLayout *layout = mapLayouts.value(map->layoutId);
MapLayout *newLayout = new MapLayout();
*newLayout = *layout;
mapLayoutsMaster.insert(map->layoutId, newLayout);
}
void Project::saveAllDataStructures() {
saveMapLayouts();
saveMapGroups();
saveMapConstantsHeader();
saveWildMonData();
}
void Project::loadTilesetAssets(Tileset* tileset) {
if (tileset->name.isNull()) {
return;
}
this->readTilesetPaths(tileset);
QImage image;
if (QFile::exists(tileset->tilesImagePath)) {
image = QImage(tileset->tilesImagePath).convertToFormat(QImage::Format_Indexed8, Qt::ThresholdDither);
} else {
image = QImage(8, 8, QImage::Format_Indexed8);
}
this->loadTilesetTiles(tileset, image);
this->loadTilesetMetatiles(tileset);
this->loadTilesetMetatileLabels(tileset);
this->loadTilesetPalettes(tileset);
}
void Project::readTilesetPaths(Tileset* tileset) {
// Parse the tileset data files to try and get explicit file paths for this tileset's assets
const QString rootDir = this->root + "/";
if (this->usingAsmTilesets) {
// Read asm tileset data files. Backwards compatibility
const QList<QStringList> graphics = parser.parseAsm(projectConfig.getFilePath(ProjectFilePath::tilesets_graphics_asm));
const QList<QStringList> metatiles_macros = parser.parseAsm(projectConfig.getFilePath(ProjectFilePath::tilesets_metatiles_asm));
const QStringList tiles_values = parser.getLabelValues(graphics, tileset->tiles_label);
const QStringList palettes_values = parser.getLabelValues(graphics, tileset->palettes_label);
const QStringList metatiles_values = parser.getLabelValues(metatiles_macros, tileset->metatiles_label);
const QStringList metatile_attrs_values = parser.getLabelValues(metatiles_macros, tileset->metatile_attrs_label);
if (!tiles_values.isEmpty())
tileset->tilesImagePath = this->fixGraphicPath(rootDir + tiles_values.value(0).section('"', 1, 1));
if (!metatiles_values.isEmpty())
tileset->metatiles_path = rootDir + metatiles_values.value(0).section('"', 1, 1);
if (!metatile_attrs_values.isEmpty())
tileset->metatile_attrs_path = rootDir + metatile_attrs_values.value(0).section('"', 1, 1);
for (const auto &value : palettes_values)
tileset->palettePaths.append(this->fixPalettePath(rootDir + value.section('"', 1, 1)));
} else {
// Read C tileset data files
const QString graphicsFile = projectConfig.getFilePath(ProjectFilePath::tilesets_graphics);
const QString metatilesFile = projectConfig.getFilePath(ProjectFilePath::tilesets_metatiles);
const QString tilesImagePath = parser.readCIncbin(graphicsFile, tileset->tiles_label);
const QStringList palettePaths = parser.readCIncbinArray(graphicsFile, tileset->palettes_label);
const QString metatilesPath = parser.readCIncbin(metatilesFile, tileset->metatiles_label);
const QString metatileAttrsPath = parser.readCIncbin(metatilesFile, tileset->metatile_attrs_label);
if (!tilesImagePath.isEmpty())
tileset->tilesImagePath = this->fixGraphicPath(rootDir + tilesImagePath);
if (!metatilesPath.isEmpty())
tileset->metatiles_path = rootDir + metatilesPath;
if (!metatileAttrsPath.isEmpty())
tileset->metatile_attrs_path = rootDir + metatileAttrsPath;
for (const auto &path : palettePaths)
tileset->palettePaths.append(this->fixPalettePath(rootDir + path));
}
// Try to set default paths, if any weren't found by reading the files above
QString defaultPath = rootDir + tileset->getExpectedDir();
if (tileset->tilesImagePath.isEmpty())
tileset->tilesImagePath = defaultPath + "/tiles.png";
if (tileset->metatiles_path.isEmpty())
tileset->metatiles_path = defaultPath + "/metatiles.bin";
if (tileset->metatile_attrs_path.isEmpty())
tileset->metatile_attrs_path = defaultPath + "/metatile_attributes.bin";
if (tileset->palettePaths.isEmpty()) {
QString palettes_dir_path = defaultPath + "/palettes/";
for (int i = 0; i < 16; i++) {
tileset->palettePaths.append(palettes_dir_path + QString("%1").arg(i, 2, 10, QLatin1Char('0')) + ".pal");
}
}
}
void Project::loadTilesetPalettes(Tileset* tileset) {
QList<QList<QRgb>> palettes;
QList<QList<QRgb>> palettePreviews;
for (int i = 0; i < tileset->palettePaths.length(); i++) {
QString path = tileset->palettePaths.value(i);
bool error = false;
QList<QRgb> palette = PaletteUtil::parse(path, &error);
if (error) {
for (int j = 0; j < 16; j++) {
palette.append(qRgb(j * 16, j * 16, j * 16));
}
}
palettes.append(palette);
palettePreviews.append(palette);
}
tileset->palettes = palettes;
tileset->palettePreviews = palettePreviews;
}
void Project::loadTilesetTiles(Tileset *tileset, QImage image) {
QList<QImage> tiles;
int w = 8;
int h = 8;
for (int y = 0; y < image.height(); y += h)
for (int x = 0; x < image.width(); x += w) {
QImage tile = image.copy(x, y, w, h);
tiles.append(tile);
}
tileset->tilesImage = image;
tileset->tiles = tiles;
}
void Project::loadTilesetMetatiles(Tileset* tileset) {
QFile metatiles_file(tileset->metatiles_path);
if (metatiles_file.open(QIODevice::ReadOnly)) {
QByteArray data = metatiles_file.readAll();
int tilesPerMetatile = projectConfig.getNumTilesInMetatile();
int bytesPerMetatile = 2 * tilesPerMetatile;
int num_metatiles = data.length() / bytesPerMetatile;
QList<Metatile*> metatiles;
for (int i = 0; i < num_metatiles; i++) {
Metatile *metatile = new Metatile;
int index = i * bytesPerMetatile;
for (int j = 0; j < tilesPerMetatile; j++) {
uint16_t tileRaw = static_cast<unsigned char>(data[index++]);
tileRaw |= static_cast<unsigned char>(data[index++]) << 8;
metatile->tiles.append(Tile(tileRaw));
}
metatiles.append(metatile);
}
tileset->metatiles = metatiles;
} else {
tileset->metatiles.clear();
logError(QString("Could not open tileset metatiles file '%1'").arg(tileset->metatiles_path));
}
QFile attrs_file(tileset->metatile_attrs_path);
if (attrs_file.open(QIODevice::ReadOnly)) {
QByteArray data = attrs_file.readAll();
int num_metatiles = tileset->metatiles.count();
int attrSize = projectConfig.getMetatileAttributesSize();
int num_metatileAttrs = data.length() / attrSize;
if (num_metatiles != num_metatileAttrs) {
logWarn(QString("Metatile count %1 does not match metatile attribute count %2 in %3").arg(num_metatiles).arg(num_metatileAttrs).arg(tileset->name));
if (num_metatileAttrs > num_metatiles)
num_metatileAttrs = num_metatiles;
}
for (int i = 0; i < num_metatileAttrs; i++) {
uint32_t attributes = 0;
for (int j = 0; j < attrSize; j++)
attributes |= static_cast<unsigned char>(data.at(i * attrSize + j)) << (8 * j);
tileset->metatiles.at(i)->setAttributes(attributes);
}
} else {
logError(QString("Could not open tileset metatile attributes file '%1'").arg(tileset->metatile_attrs_path));
}
}
bool Project::readTilesetMetatileLabels() {
metatileLabelsMap.clear();
QString metatileLabelsFilename = projectConfig.getFilePath(ProjectFilePath::constants_metatile_labels);
fileWatcher.addPath(root + "/" + metatileLabelsFilename);
QMap<QString, int> labels = parser.readCDefines(metatileLabelsFilename, QStringList() << "METATILE_");
for (QString label : this->tilesetLabelsOrdered) {
QString tilesetName = QString(label).replace("gTileset_", "");
for (QString key : labels.keys()) {
if (key.contains(QString("METATILE_") + tilesetName + "_")) {
metatileLabelsMap[label][key] = labels[key];
}
}
}
return true;
}
void Project::loadTilesetMetatileLabels(Tileset* tileset) {
QString tilesetPrefix = QString("METATILE_%1_").arg(QString(tileset->name).replace("gTileset_", ""));
// Reverse map for faster lookup by metatile id
for (QString labelName : metatileLabelsMap[tileset->name].keys()) {
int metatileId = metatileLabelsMap[tileset->name][labelName];
tileset->metatileLabels[metatileId] = labelName.replace(tilesetPrefix, "");
}
}
Blockdata Project::readBlockdata(QString path) {
Blockdata blockdata;
QFile file(path);
if (file.open(QIODevice::ReadOnly)) {
QByteArray data = file.readAll();
for (int i = 0; (i + 1) < data.length(); i += 2) {
uint16_t word = static_cast<uint16_t>((data[i] & 0xff) + ((data[i + 1] & 0xff) << 8));
blockdata.append(word);
}
} else {
logError(QString("Failed to open blockdata path '%1'").arg(path));
}
return blockdata;
}
Map* Project::getMap(QString map_name) {
if (mapCache.contains(map_name)) {
return mapCache.value(map_name);
} else {
Map *map = loadMap(map_name);
return map;
}
}
Tileset* Project::getTileset(QString label, bool forceLoad) {
Tileset *existingTileset = nullptr;
if (tilesetCache.contains(label)) {
existingTileset = tilesetCache.value(label);
}
if (existingTileset && !forceLoad) {
return existingTileset;
} else {
Tileset *tileset = loadTileset(label, existingTileset);
return tileset;
}
}
void Project::saveTextFile(QString path, QString text) {
QFile file(path);
if (file.open(QIODevice::WriteOnly)) {
file.write(text.toUtf8());
} else {
logError(QString("Could not open '%1' for writing: ").arg(path) + file.errorString());
}
}
void Project::appendTextFile(QString path, QString text) {
QFile file(path);
if (file.open(QIODevice::Append)) {
file.write(text.toUtf8());
} else {
logError(QString("Could not open '%1' for appending: ").arg(path) + file.errorString());
}
}
void Project::deleteFile(QString path) {
QFile file(path);
if (file.exists() && !file.remove()) {
logError(QString("Could not delete file '%1': ").arg(path) + file.errorString());
}
}
bool Project::readWildMonData() {
extraEncounterGroups.clear();
wildMonFields.clear();
wildMonData.clear();
encounterGroupLabels.clear();
if (!userConfig.getEncounterJsonActive()) {
return true;
}
QString wildMonJsonFilepath = QString("%1/%2").arg(root).arg(projectConfig.getFilePath(ProjectFilePath::json_wild_encounters));
fileWatcher.addPath(wildMonJsonFilepath);
OrderedJson::object wildMonObj;
if (!parser.tryParseOrderedJsonFile(&wildMonObj, wildMonJsonFilepath)) {
// Failing to read wild encounters data is not a critical error, just disable the
// encounter editor and log a warning in case the user intended to have this data.
userConfig.setEncounterJsonActive(false);
emit disableWildEncountersUI();
logWarn(QString("Failed to read wild encounters from %1").arg(wildMonJsonFilepath));
return true;
}
for (OrderedJson subObjectRef : wildMonObj["wild_encounter_groups"].array_items()) {
OrderedJson::object subObject = subObjectRef.object_items();
if (!subObject["for_maps"].bool_value()) {
extraEncounterGroups.push_back(subObject);
continue;
}
for (OrderedJson field : subObject["fields"].array_items()) {
EncounterField encounterField;
OrderedJson::object fieldObj = field.object_items();
encounterField.name = fieldObj["type"].string_value();
for (auto val : fieldObj["encounter_rates"].array_items()) {
encounterField.encounterRates.append(val.int_value());
}
QList<QString> subGroups;
for (auto groupPair : fieldObj["groups"].object_items()) {
subGroups.append(groupPair.first);
}
for (QString group : subGroups) {
OrderedJson::object groupsObj = fieldObj["groups"].object_items();
for (auto slotNum : groupsObj[group].array_items()) {
encounterField.groups[group].append(slotNum.int_value());
}
}
wildMonFields.append(encounterField);
}
auto encounters = subObject["encounters"].array_items();
for (auto encounter : encounters) {
OrderedJson::object encounterObj = encounter.object_items();
QString mapConstant = encounterObj["map"].string_value();
WildPokemonHeader header;
for (EncounterField monField : wildMonFields) {
QString field = monField.name;
if (!encounterObj[field].is_null()) {
OrderedJson::object encounterFieldObj = encounterObj[field].object_items();
header.wildMons[field].active = true;
header.wildMons[field].encounterRate = encounterFieldObj["encounter_rate"].int_value();
for (auto mon : encounterFieldObj["mons"].array_items()) {
WildPokemon newMon;
OrderedJson::object monObj = mon.object_items();
newMon.minLevel = monObj["min_level"].int_value();
newMon.maxLevel = monObj["max_level"].int_value();
newMon.species = monObj["species"].string_value();
header.wildMons[field].wildPokemon.append(newMon);
}
}
}
wildMonData[mapConstant].insert({encounterObj["base_label"].string_value(), header});
encounterGroupLabels.append(encounterObj["base_label"].string_value());
}
}
return true;
}
bool Project::readMapGroups() {
mapConstantsToMapNames.clear();
mapNamesToMapConstants.clear();
mapGroups.clear();
QString mapGroupsFilepath = root + "/" + projectConfig.getFilePath(ProjectFilePath::json_map_groups);
fileWatcher.addPath(mapGroupsFilepath);
QJsonDocument mapGroupsDoc;
if (!parser.tryParseJsonFile(&mapGroupsDoc, mapGroupsFilepath)) {
logError(QString("Failed to read map groups from %1").arg(mapGroupsFilepath));
return false;
}
QJsonObject mapGroupsObj = mapGroupsDoc.object();
QJsonArray mapGroupOrder = mapGroupsObj["group_order"].toArray();
QList<QStringList> groupedMaps;
QStringList maps;
QStringList groups;
for (int groupIndex = 0; groupIndex < mapGroupOrder.size(); groupIndex++) {
QString groupName = ParseUtil::jsonToQString(mapGroupOrder.at(groupIndex));
QJsonArray mapNames = mapGroupsObj.value(groupName).toArray();
groupedMaps.append(QStringList());
groups.append(groupName);
for (int j = 0; j < mapNames.size(); j++) {
QString mapName = ParseUtil::jsonToQString(mapNames.at(j));
mapGroups.insert(mapName, groupIndex);
groupedMaps[groupIndex].append(mapName);
maps.append(mapName);
// Build the mapping and reverse mapping between map constants and map names.
QString mapConstant = Map::mapConstantFromName(mapName);
mapConstantsToMapNames.insert(mapConstant, mapName);
mapNamesToMapConstants.insert(mapName, mapConstant);
}
}
mapConstantsToMapNames.insert(DYNAMIC_MAP_CONSTANT, DYNAMIC_MAP_NAME);
mapNamesToMapConstants.insert(DYNAMIC_MAP_NAME, DYNAMIC_MAP_CONSTANT);
maps.append(DYNAMIC_MAP_NAME);
groupNames = groups;
groupedMapNames = groupedMaps;
mapNames = maps;
return true;
}
Map* Project::addNewMapToGroup(QString mapName, int groupNum, Map *newMap, bool existingLayout, bool importedMap) {
mapNames.append(mapName);
mapGroups.insert(mapName, groupNum);
groupedMapNames[groupNum].append(mapName);
newMap->isPersistedToFile = false;
newMap->setName(mapName);
mapConstantsToMapNames.insert(newMap->constantName, newMap->name);
mapNamesToMapConstants.insert(newMap->name, newMap->constantName);
if (!existingLayout) {
mapLayouts.insert(newMap->layoutId, newMap->layout);
mapLayoutsTable.append(newMap->layoutId);
if (!importedMap) {
setNewMapBlockdata(newMap);
}
if (newMap->layout->border.isEmpty()) {
setNewMapBorder(newMap);
}
}
loadLayoutTilesets(newMap->layout);
setNewMapEvents(newMap);
setNewMapConnections(newMap);
return newMap;
}
QString Project::getNewMapName() {
// Ensure default name doesn't already exist.
int i = 0;
QString newMapName;
do {
newMapName = QString("NewMap%1").arg(++i);
} while (mapNames.contains(newMapName));
return newMapName;
}
QStringList Project::getVisibilities() {
// TODO
QStringList names;
for (int i = 0; i < 16; i++) {
names.append(QString("%1").arg(i));
}
return names;
}
Project::DataQualifiers Project::getDataQualifiers(QString text, QString label) {
Project::DataQualifiers qualifiers;
QRegularExpression regex(QString("\\s*(?<static>static\\s*)?(?<const>const\\s*)?[A-Za-z0-9_\\s]*\\b%1\\b").arg(label));
QRegularExpressionMatch match = regex.match(text);
qualifiers.isStatic = match.captured("static").isNull() ? false : true;
qualifiers.isConst = match.captured("const").isNull() ? false : true;
return qualifiers;
}
QString Project::getDefaultPrimaryTilesetLabel() {
QString defaultLabel = projectConfig.getDefaultPrimaryTileset();
if (!this->primaryTilesetLabels.contains(defaultLabel)) {
QString firstLabel = this->primaryTilesetLabels.first();
logWarn(QString("Unable to find default primary tileset '%1', using '%2' instead.").arg(defaultLabel).arg(firstLabel));
defaultLabel = firstLabel;
}
return defaultLabel;
}
QString Project::getDefaultSecondaryTilesetLabel() {
QString defaultLabel = projectConfig.getDefaultSecondaryTileset();
if (!this->secondaryTilesetLabels.contains(defaultLabel)) {
QString firstLabel = this->secondaryTilesetLabels.first();
logWarn(QString("Unable to find default secondary tileset '%1', using '%2' instead.").arg(defaultLabel).arg(firstLabel));
defaultLabel = firstLabel;
}
return defaultLabel;
}
void Project::appendTilesetLabel(QString label, QString isSecondaryStr) {
bool ok;
bool isSecondary = ParseUtil::gameStringToBool(isSecondaryStr, &ok);
if (!ok) {
logError(QString("Unable to convert value '%1' of isSecondary to bool for tileset %2.").arg(isSecondaryStr).arg(label));
return;
}
QStringList * list = isSecondary ? &this->secondaryTilesetLabels : &this->primaryTilesetLabels;
list->append(label);
this->tilesetLabelsOrdered.append(label);
}
bool Project::readTilesetLabels() {
QStringList primaryTilesets;
QStringList secondaryTilesets;
this->primaryTilesetLabels.clear();
this->secondaryTilesetLabels.clear();
this->tilesetLabelsOrdered.clear();
QString filename = projectConfig.getFilePath(ProjectFilePath::tilesets_headers);
QFileInfo fileInfo(this->root + "/" + filename);
if (!fileInfo.exists() || !fileInfo.isFile()) {
// If the tileset headers file is missing, the user may still have the old assembly format.
this->usingAsmTilesets = true;
QString asm_filename = projectConfig.getFilePath(ProjectFilePath::tilesets_headers_asm);
QString text = parser.readTextFile(this->root + "/" + asm_filename);
if (text.isEmpty()) {
logError(QString("Failed to read tileset labels from '%1' or '%2'.").arg(filename).arg(asm_filename));
return false;
}
static const QRegularExpression re("(?<label>[A-Za-z0-9_]*):{1,2}[A-Za-z0-9_@ ]*\\s+.+\\s+\\.byte\\s+(?<isSecondary>[A-Za-z0-9_]+)");
QRegularExpressionMatchIterator iter = re.globalMatch(text);
while (iter.hasNext()) {
QRegularExpressionMatch match = iter.next();
appendTilesetLabel(match.captured("label"), match.captured("isSecondary"));
}
this->primaryTilesetLabels.sort();
this->secondaryTilesetLabels.sort();
this->tilesetLabelsOrdered.sort();
filename = asm_filename; // For error reporting further down
} else {
this->usingAsmTilesets = false;
const auto structs = parser.readCStructs(filename, "", Tileset::getHeaderMemberMap(this->usingAsmTilesets));
QStringList labels = structs.keys();
// TODO: This is alphabetical, AdvanceMap import wants the vanilla order in tilesetLabelsOrdered
for (const auto tilesetLabel : labels){
appendTilesetLabel(tilesetLabel, structs[tilesetLabel].value("isSecondary"));
}
}
bool success = true;
if (this->secondaryTilesetLabels.isEmpty()) {
logError(QString("Failed to find any secondary tilesets in %1").arg(filename));
success = false;
}
if (this->primaryTilesetLabels.isEmpty()) {
logError(QString("Failed to find any primary tilesets in %1").arg(filename));
success = false;
}
return success;
}
bool Project::readTilesetProperties() {
QStringList definePrefixes;
definePrefixes << "\\bNUM_";
QString filename = projectConfig.getFilePath(ProjectFilePath::constants_fieldmap);
fileWatcher.addPath(root + "/" + filename);
QMap<QString, int> defines = parser.readCDefines(filename, definePrefixes);
auto it = defines.find("NUM_TILES_IN_PRIMARY");
if (it != defines.end()) {
Project::num_tiles_primary = it.value();
}
else {
logWarn(QString("Value for tileset property 'NUM_TILES_IN_PRIMARY' not found. Using default (%1) instead.")
.arg(Project::num_tiles_primary));
}
it = defines.find("NUM_TILES_TOTAL");
if (it != defines.end()) {
Project::num_tiles_total = it.value();
}
else {
logWarn(QString("Value for tileset property 'NUM_TILES_TOTAL' not found. Using default (%1) instead.")
.arg(Project::num_tiles_total));
}
it = defines.find("NUM_METATILES_IN_PRIMARY");
if (it != defines.end()) {
Project::num_metatiles_primary = it.value();
}
else {
logWarn(QString("Value for tileset property 'NUM_METATILES_IN_PRIMARY' not found. Using default (%1) instead.")
.arg(Project::num_metatiles_primary));
}
it = defines.find("NUM_METATILES_TOTAL");
if (it != defines.end()) {
Project::num_metatiles_total = it.value();
}
else {
logWarn(QString("Value for tileset property 'NUM_METATILES_TOTAL' not found. Using default (%1) instead.")
.arg(Project::num_metatiles_total));
}
it = defines.find("NUM_PALS_IN_PRIMARY");
if (it != defines.end()) {
Project::num_pals_primary = it.value();
}
else {
logWarn(QString("Value for tileset property 'NUM_PALS_IN_PRIMARY' not found. Using default (%1) instead.")
.arg(Project::num_pals_primary));
}
it = defines.find("NUM_PALS_TOTAL");
if (it != defines.end()) {
Project::num_pals_total = it.value();
}
else {
logWarn(QString("Value for tileset property 'NUM_PALS_TOTAL' not found. Using default (%1) instead.")
.arg(Project::num_pals_total));
}
return true;
}
bool Project::readMaxMapDataSize() {
QStringList definePrefixes;
definePrefixes << "\\bMAX_";
QString filename = projectConfig.getFilePath(ProjectFilePath::constants_fieldmap); // already in fileWatcher from readTilesetProperties
QMap<QString, int> defines = parser.readCDefines(filename, definePrefixes);
auto it = defines.find("MAX_MAP_DATA_SIZE");
if (it != defines.end()) {
int min = getMapDataSize(1, 1);
if (it.value() >= min) {
Project::max_map_data_size = it.value();
calculateDefaultMapSize();
} else {
// must be large enough to support a 1x1 map
logWarn(QString("Value for map property 'MAX_MAP_DATA_SIZE' is %1, must be at least %2. Using default (%3) instead.")
.arg(it.value())
.arg(min)
.arg(Project::max_map_data_size));
}
}
else {
logWarn(QString("Value for map property 'MAX_MAP_DATA_SIZE' not found. Using default (%1) instead.")
.arg(Project::max_map_data_size));
}
return true;
}
bool Project::readRegionMapSections() {
this->mapSectionNameToValue.clear();
this->mapSectionValueToName.clear();
QStringList prefixes = (QStringList() << "\\bMAPSEC_");
QString filename = projectConfig.getFilePath(ProjectFilePath::constants_region_map_sections);
fileWatcher.addPath(root + "/" + filename);
this->mapSectionNameToValue = parser.readCDefines(filename, prefixes);
if (this->mapSectionNameToValue.isEmpty()) {
logError(QString("Failed to read region map sections from %1.").arg(filename));
return false;
}
for (QString defineName : this->mapSectionNameToValue.keys()) {
this->mapSectionValueToName.insert(this->mapSectionNameToValue[defineName], defineName);
}
return true;
}
// Read the constants to preserve any "unused" heal locations when writing the file later
bool Project::readHealLocationConstants() {
this->healLocationNameToValue.clear();
QStringList prefixes{ "\\bSPAWN_", "\\bHEAL_LOCATION_" };
QString constantsFilename = projectConfig.getFilePath(ProjectFilePath::constants_heal_locations);
fileWatcher.addPath(root + "/" + constantsFilename);
this->healLocationNameToValue = parser.readCDefines(constantsFilename, prefixes);
// No need to check if empty, not finding any heal location constants is ok
return true;
}
bool Project::readHealLocations() {
this->healLocationDataQualifiers = {};
this->healLocations.clear();
if (!this->readHealLocationConstants())
return false;
QString filename = projectConfig.getFilePath(ProjectFilePath::data_heal_locations);
fileWatcher.addPath(root + "/" + filename);
QString text = parser.readTextFile(root + "/" + filename);
// Strip comments
static const QRegularExpression re_comments("//.*?(\r\n?|\n)|/\\*.*?\\*/", QRegularExpression::DotMatchesEverythingOption);
text.replace(re_comments, "");
bool respawnEnabled = projectConfig.getHealLocationRespawnDataEnabled();
// Get data qualifiers for the location data table
QString tableName = respawnEnabled ? "sSpawnPoints" : "sHealLocations";
this->healLocationDataQualifiers = this->getDataQualifiers(text, tableName);
// Create regex pattern for the constants (ex: "SPAWN_PALLET_TOWN" or "HEAL_LOCATION_PETALBURG_CITY")
static const QRegularExpression constantsExpr("(SPAWN|HEAL_LOCATION)_[A-Za-z0-9_]+");
// Find all the unique heal location constants used in the data tables.
// Porymap doesn't care whether or not a constant appeared in the heal locations constants file.
// Any data entry without a designated initializer using one of these constants will be silently discarded.
// Any data entry that repeats a designated initializer will also be discarded.
QStringList constants = QStringList();
QRegularExpressionMatchIterator constantsMatch = constantsExpr.globalMatch(text);
while (constantsMatch.hasNext())
constants << constantsMatch.next().captured();
constants.removeDuplicates();
// Pattern for a map value pair (ex: "MAP_GROUP(PALLET_TOWN), MAP_NUM(PALLET_TOWN)")
const QString mapPattern = "MAP_GROUP[\\(\\s]+(?<map>[A-Za-z0-9_]+)[\\s\\)]+,\\s*MAP_NUM[\\(\\s]+(\\1)[\\s\\)]+";
// Pattern for an x, y number pair
const QString coordPattern = "\\s*(?<x>[0-9A-Fa-fx]+),\\s*(?<y>[0-9A-Fa-fx]+)";
for (const auto idName : constants) {
// Create regex pattern for e.g. "SPAWN_PALLET_TOWN - 1] = "
const QString initializerPattern = QString("%1\\s*- 1\\]\\s* = ").arg(idName);
// Expression for location data, e.g. "SPAWN_PALLET_TOWN - 1] = {MAP_GROUP(PALLET_TOWN), MAP_NUM(PALLET_TOWN), x, y}"
QRegularExpression locationRegex(QString("%1\\{%2,%3}").arg(initializerPattern).arg(mapPattern).arg(coordPattern));
QRegularExpressionMatch match = locationRegex.match(text);
// Read location data
HealLocation healLocation;
if (match.hasMatch()) {
QString mapName = match.captured("map");
int x = match.captured("x").toInt(nullptr, 0);
int y = match.captured("y").toInt(nullptr, 0);
healLocation = HealLocation(idName, mapName, this->healLocations.size() + 1, x, y);
} else {
// This heal location has data, but is missing from the location table and won't be displayed by Porymap.
// Add a dummy entry, and preserve the rest of its data for the user anyway
healLocation = HealLocation(idName, "", this->healLocations.size() + 1, 0, 0);
}
// Read respawn data
if (respawnEnabled) {
// Expression for respawn map data, e.g. "SPAWN_PALLET_TOWN - 1] = {MAP_GROUP(PALLET_TOWN_PLAYERS_HOUSE_1F), MAP_NUM(PALLET_TOWN_PLAYERS_HOUSE_1F)}"
QRegularExpression respawnMapRegex(QString("%1\\{%2}").arg(initializerPattern).arg(mapPattern));
match = respawnMapRegex.match(text);
if (match.hasMatch())
healLocation.respawnMap = match.captured("map");
// Expression for respawn npc data, e.g. "SPAWN_PALLET_TOWN - 1] = 1"
QRegularExpression respawnNPCRegex(QString("%1(?<npc>[0-9]+)").arg(initializerPattern));
match = respawnNPCRegex.match(text);
if (match.hasMatch())
healLocation.respawnNPC = match.captured("npc").toInt(nullptr, 0);
}
this->healLocations.append(healLocation);
}
// No need to check if empty, not finding any heal locations is ok
return true;
}
bool Project::readItemNames() {
QStringList prefixes("\\bITEM_(?!(B_)?USE_)"); // Exclude ITEM_USE_ and ITEM_B_USE_ constants
QString filename = projectConfig.getFilePath(ProjectFilePath::constants_items);
fileWatcher.addPath(root + "/" + filename);
itemNames = parser.readCDefinesSorted(filename, prefixes);
if (itemNames.isEmpty()) {
logError(QString("Failed to read item constants from %1").arg(filename));
return false;
}
return true;
}
bool Project::readFlagNames() {
// First read MAX_TRAINERS_COUNT, used to skip over trainer flags
// If this fails flags may simply be out of order, no need to check for success
QString opponentsFilename = projectConfig.getFilePath(ProjectFilePath::constants_opponents);
fileWatcher.addPath(root + "/" + opponentsFilename);
QMap<QString, int> maxTrainers = parser.readCDefines(opponentsFilename, QStringList() << "\\bMAX_");
// Parse flags
QStringList prefixes("\\bFLAG_");
QString flagsFilename = projectConfig.getFilePath(ProjectFilePath::constants_flags);
fileWatcher.addPath(root + "/" + flagsFilename);
flagNames = parser.readCDefinesSorted(flagsFilename, prefixes, maxTrainers);
if (flagNames.isEmpty()) {
logError(QString("Failed to read flag constants from %1").arg(flagsFilename));
return false;
}
return true;
}
bool Project::readVarNames() {
QStringList prefixes("\\bVAR_");
QString filename = projectConfig.getFilePath(ProjectFilePath::constants_vars);
fileWatcher.addPath(root + "/" + filename);
varNames = parser.readCDefinesSorted(filename, prefixes);
if (varNames.isEmpty()) {
logError(QString("Failed to read var constants from %1").arg(filename));
return false;
}
return true;
}
bool Project::readMovementTypes() {
QStringList prefixes("\\bMOVEMENT_TYPE_");
QString filename = projectConfig.getFilePath(ProjectFilePath::constants_obj_event_movement);
fileWatcher.addPath(root + "/" + filename);
movementTypes = parser.readCDefinesSorted(filename, prefixes);
if (movementTypes.isEmpty()) {
logError(QString("Failed to read movement type constants from %1").arg(filename));
return false;
}
return true;
}
bool Project::readInitialFacingDirections() {
QString filename = projectConfig.getFilePath(ProjectFilePath::initial_facing_table);
fileWatcher.addPath(root + "/" + filename);
facingDirections = parser.readNamedIndexCArray(filename, "gInitialMovementTypeFacingDirections");
if (facingDirections.isEmpty()) {
logError(QString("Failed to read initial movement type facing directions from %1").arg(filename));
return false;
}
return true;
}
bool Project::readMapTypes() {
QStringList prefixes("\\bMAP_TYPE_");
QString filename = projectConfig.getFilePath(ProjectFilePath::constants_map_types);
fileWatcher.addPath(root + "/" + filename);
mapTypes = parser.readCDefinesSorted(filename, prefixes);
if (mapTypes.isEmpty()) {
logError(QString("Failed to read map type constants from %1").arg(filename));
return false;
}
return true;
}
bool Project::readMapBattleScenes() {
QStringList prefixes("\\bMAP_BATTLE_SCENE_");
QString filename = projectConfig.getFilePath(ProjectFilePath::constants_map_types);
fileWatcher.addPath(root + "/" + filename);
mapBattleScenes = parser.readCDefinesSorted(filename, prefixes);
if (mapBattleScenes.isEmpty()) {
logError(QString("Failed to read map battle scene constants from %1").arg(filename));
return false;
}
return true;
}
bool Project::readWeatherNames() {
QStringList prefixes("\\bWEATHER_");
QString filename = projectConfig.getFilePath(ProjectFilePath::constants_weather);
fileWatcher.addPath(root + "/" + filename);
weatherNames = parser.readCDefinesSorted(filename, prefixes);
if (weatherNames.isEmpty()) {
logError(QString("Failed to read weather constants from %1").arg(filename));
return false;
}
return true;
}
bool Project::readCoordEventWeatherNames() {
if (!projectConfig.getEventWeatherTriggerEnabled())
return true;
QStringList prefixes("\\bCOORD_EVENT_WEATHER_");
QString filename = projectConfig.getFilePath(ProjectFilePath::constants_weather);
fileWatcher.addPath(root + "/" + filename);
coordEventWeatherNames = parser.readCDefinesSorted(filename, prefixes);
if (coordEventWeatherNames.isEmpty()) {
logError(QString("Failed to read coord event weather constants from %1").arg(filename));
return false;
}
return true;
}
bool Project::readSecretBaseIds() {
if (!projectConfig.getEventSecretBaseEnabled())
return true;
QStringList prefixes("\\bSECRET_BASE_[A-Za-z0-9_]*_[0-9]+");
QString filename = projectConfig.getFilePath(ProjectFilePath::constants_secret_bases);
fileWatcher.addPath(root + "/" + filename);
secretBaseIds = parser.readCDefinesSorted(filename, prefixes);
if (secretBaseIds.isEmpty()) {
logError(QString("Failed to read secret base id constants from %1").arg(filename));
return false;
}
return true;
}
bool Project::readBgEventFacingDirections() {
QStringList prefixes("\\bBG_EVENT_PLAYER_FACING_");
QString filename = projectConfig.getFilePath(ProjectFilePath::constants_event_bg);
fileWatcher.addPath(root + "/" + filename);
bgEventFacingDirections = parser.readCDefinesSorted(filename, prefixes);
if (bgEventFacingDirections.isEmpty()) {
logError(QString("Failed to read bg event facing direction constants from %1").arg(filename));
return false;
}
return true;
}
bool Project::readTrainerTypes() {
QStringList prefixes("\\bTRAINER_TYPE_");
QString filename = projectConfig.getFilePath(ProjectFilePath::constants_trainer_types);
fileWatcher.addPath(root + "/" + filename);
trainerTypes = parser.readCDefinesSorted(filename, prefixes);
if (trainerTypes.isEmpty()) {
logError(QString("Failed to read trainer type constants from %1").arg(filename));
return false;
}
return true;
}
bool Project::readMetatileBehaviors() {
this->metatileBehaviorMap.clear();
this->metatileBehaviorMapInverse.clear();
QStringList prefixes("\\bMB_");
QString filename = projectConfig.getFilePath(ProjectFilePath::constants_metatile_behaviors);
fileWatcher.addPath(root + "/" + filename);
this->metatileBehaviorMap = parser.readCDefines(filename, prefixes);
if (this->metatileBehaviorMap.isEmpty()) {
logError(QString("Failed to read metatile behaviors from %1.").arg(filename));
return false;
}
for (QString defineName : this->metatileBehaviorMap.keys()) {
this->metatileBehaviorMapInverse.insert(this->metatileBehaviorMap[defineName], defineName);
}
return true;
}
bool Project::readSongNames() {
QStringList songDefinePrefixes{ "\\bSE_", "\\bMUS_" };
QString filename = projectConfig.getFilePath(ProjectFilePath::constants_songs);
fileWatcher.addPath(root + "/" + filename);
QMap<QString, int> songDefines = parser.readCDefines(filename, songDefinePrefixes);
this->songNames = songDefines.keys();
this->defaultSong = this->songNames.value(0, "MUS_DUMMY");
if (this->songNames.isEmpty()) {
logError(QString("Failed to read song names from %1.").arg(filename));
return false;
}
return true;
}
bool Project::readObjEventGfxConstants() {
QStringList objEventGfxPrefixes("\\bOBJ_EVENT_GFX_");
QString filename = projectConfig.getFilePath(ProjectFilePath::constants_obj_events);
fileWatcher.addPath(root + "/" + filename);
this->gfxDefines = parser.readCDefines(filename, objEventGfxPrefixes);
if (this->gfxDefines.isEmpty()) {
logError(QString("Failed to read object event graphics constants from %1.").arg(filename));
return false;
}
return true;
}
bool Project::readMiscellaneousConstants() {
miscConstants.clear();
if (userConfig.getEncounterJsonActive()) {
QString filename = projectConfig.getFilePath(ProjectFilePath::constants_pokemon);
fileWatcher.addPath(root + "/" + filename);
QMap<QString, int> pokemonDefines = parser.readCDefines(filename, { "MIN_", "MAX_" });
miscConstants.insert("max_level_define", pokemonDefines.value("MAX_LEVEL") > pokemonDefines.value("MIN_LEVEL") ? pokemonDefines.value("MAX_LEVEL") : 100);
miscConstants.insert("min_level_define", pokemonDefines.value("MIN_LEVEL") < pokemonDefines.value("MAX_LEVEL") ? pokemonDefines.value("MIN_LEVEL") : 1);
}
QString filename = projectConfig.getFilePath(ProjectFilePath::constants_global);
fileWatcher.addPath(root + "/" + filename);
QStringList definePrefixes("\\bOBJECT_");
QMap<QString, int> defines = parser.readCDefines(filename, definePrefixes);
auto it = defines.find("OBJECT_EVENT_TEMPLATES_COUNT");
if (it != defines.end()) {
if (it.value() > 0) {
Project::max_object_events = it.value();
} else {
logWarn(QString("Value for 'OBJECT_EVENT_TEMPLATES_COUNT' is %1, must be greater than 0. Using default (%2) instead.")
.arg(it.value())
.arg(Project::max_object_events));
}
}
else {
logWarn(QString("Value for 'OBJECT_EVENT_TEMPLATES_COUNT' not found. Using default (%1) instead.")
.arg(Project::max_object_events));
}
return true;
}
QStringList Project::getGlobalScriptLabels() {
return this->eventScriptLabelModel.stringList();
}
bool Project::readEventScriptLabels() {
for (const auto &filePath : getEventScriptsFilePaths())
globalScriptLabels << ParseUtil::getGlobalScriptLabels(filePath);
eventScriptLabelModel.setStringList(globalScriptLabels);
eventScriptLabelCompleter.setModel(&eventScriptLabelModel);
eventScriptLabelCompleter.setCaseSensitivity(Qt::CaseInsensitive);
eventScriptLabelCompleter.setFilterMode(Qt::MatchContains);
return true;
}
QString Project::fixPalettePath(QString path) {
static const QRegularExpression re_gbapal("\\.gbapal$");
path = path.replace(re_gbapal, ".pal");
return path;
}
QString Project::fixGraphicPath(QString path) {
static const QRegularExpression re_lz("\\.lz$");
path = path.replace(re_lz, "");
static const QRegularExpression re_bpp("\\.[1248]bpp$");
path = path.replace(re_bpp, ".png");
return path;
}
QString Project::getScriptFileExtension(bool usePoryScript) const {
if(usePoryScript) {
return ".pory";
} else {
return ".inc";
}
}
QString Project::getScriptDefaultString(bool usePoryScript, QString mapName) const {
if(usePoryScript)
return QString("mapscripts %1_MapScripts {}\n").arg(mapName);
else
return QString("%1_MapScripts::\n\t.byte 0\n").arg(mapName);
}
QString Project::getMapScriptsFilePath(const QString &mapName) const {
const bool usePoryscript = projectConfig.getUsePoryScript();
auto path = QDir::cleanPath(root + "/" + projectConfig.getFilePath(ProjectFilePath::data_map_folders) + "/" + mapName + "/scripts");
auto extension = getScriptFileExtension(usePoryscript);
if (usePoryscript && !QFile::exists(path + extension))
extension = getScriptFileExtension(false);
path += extension;
return path;
}
QStringList Project::getEventScriptsFilePaths() const {
QStringList filePaths(QDir::cleanPath(root + "/" + projectConfig.getFilePath(ProjectFilePath::data_event_scripts)));
const QString scriptsDir = QDir::cleanPath(root + "/" + projectConfig.getFilePath(ProjectFilePath::data_scripts_folders));
const QString mapsDir = QDir::cleanPath(root + "/" + projectConfig.getFilePath(ProjectFilePath::data_map_folders));
const bool usePoryscript = projectConfig.getUsePoryScript();
if (usePoryscript) {
QDirIterator it_pory_shared(scriptsDir, {"*.pory"}, QDir::Files);
while (it_pory_shared.hasNext())
filePaths << it_pory_shared.next();
QDirIterator it_pory_maps(mapsDir, {"scripts.pory"}, QDir::Files, QDirIterator::Subdirectories);
while (it_pory_maps.hasNext())
filePaths << it_pory_maps.next();
}
QDirIterator it_inc_shared(scriptsDir, {"*.inc"}, QDir::Files);
while (it_inc_shared.hasNext())
filePaths << it_inc_shared.next();
QDirIterator it_inc_maps(mapsDir, {"scripts.inc"}, QDir::Files, QDirIterator::Subdirectories);
while (it_inc_maps.hasNext())
filePaths << it_inc_maps.next();
return filePaths;
}
QCompleter *Project::getEventScriptLabelCompleter(QStringList additionalScriptLabels) {
additionalScriptLabels << globalScriptLabels;
additionalScriptLabels.removeDuplicates();
eventScriptLabelModel.setStringList(additionalScriptLabels);
return &eventScriptLabelCompleter;
}
void Project::setEventPixmap(Event *event, bool forceLoad) {
if (event && (event->getPixmap().isNull() || forceLoad))
event->loadPixmap(this);
}
bool Project::readEventGraphics() {
fileWatcher.addPaths(QStringList() << root + "/" + projectConfig.getFilePath(ProjectFilePath::data_obj_event_gfx_pointers)
<< root + "/" + projectConfig.getFilePath(ProjectFilePath::data_obj_event_gfx_info)
<< root + "/" + projectConfig.getFilePath(ProjectFilePath::data_obj_event_pic_tables)
<< root + "/" + projectConfig.getFilePath(ProjectFilePath::data_obj_event_gfx));
QMap<QString, QString> pointerHash = parser.readNamedIndexCArray(projectConfig.getFilePath(ProjectFilePath::data_obj_event_gfx_pointers), "gObjectEventGraphicsInfoPointers");
qDeleteAll(eventGraphicsMap);
eventGraphicsMap.clear();
QStringList gfxNames = gfxDefines.keys();
// The positions of each of the required members for the gfx info struct.
// For backwards compatibility if the struct doesn't use initializers.
const auto gfxInfoMemberMap = QHash<int, QString>{
{8, "inanimate"},
{11, "oam"},
{12, "subspriteTables"},
{14, "images"},
};
QString filepath = projectConfig.getFilePath(ProjectFilePath::data_obj_event_gfx_info);
const auto gfxInfos = parser.readCStructs(filepath, "", gfxInfoMemberMap);
QMap<QString, QStringList> picTables = parser.readCArrayMulti(projectConfig.getFilePath(ProjectFilePath::data_obj_event_pic_tables));
QMap<QString, QString> graphicIncbins = parser.readCIncbinMulti(projectConfig.getFilePath(ProjectFilePath::data_obj_event_gfx));
for (QString gfxName : gfxNames) {
EventGraphics * eventGraphics = new EventGraphics;
QString info_label = pointerHash[gfxName].replace("&", "");
if (!gfxInfos.contains(info_label))
continue;
const auto gfxInfoAttributes = gfxInfos[info_label];
eventGraphics->inanimate = ParseUtil::gameStringToBool(gfxInfoAttributes.value("inanimate"));
QString pic_label = gfxInfoAttributes.value("images");
QString dimensions_label = gfxInfoAttributes.value("oam");
QString subsprites_label = gfxInfoAttributes.value("subspriteTables");
QString gfx_label = picTables[pic_label].value(0);
static const QRegularExpression re_parens("[\\(\\)]");
gfx_label = gfx_label.section(re_parens, 1, 1);
QString path = graphicIncbins[gfx_label];
if (!path.isNull()) {
path = fixGraphicPath(path);
eventGraphics->spritesheet = QImage(root + "/" + path);
if (!eventGraphics->spritesheet.isNull()) {
// Infer the sprite dimensions from the OAM labels.
static const QRegularExpression re("\\S+_(\\d+)x(\\d+)");
QRegularExpressionMatch dimensionMatch = re.match(dimensions_label);
QRegularExpressionMatch oamTablesMatch = re.match(subsprites_label);
if (oamTablesMatch.hasMatch()) {
eventGraphics->spriteWidth = oamTablesMatch.captured(1).toInt(nullptr, 0);
eventGraphics->spriteHeight = oamTablesMatch.captured(2).toInt(nullptr, 0);
} else if (dimensionMatch.hasMatch()) {
eventGraphics->spriteWidth = dimensionMatch.captured(1).toInt(nullptr, 0);
eventGraphics->spriteHeight = dimensionMatch.captured(2).toInt(nullptr, 0);
} else {
eventGraphics->spriteWidth = eventGraphics->spritesheet.width();
eventGraphics->spriteHeight = eventGraphics->spritesheet.height();
}
}
} else {
eventGraphics->spritesheet = QImage();
eventGraphics->spriteWidth = 16;
eventGraphics->spriteHeight = 16;
}
eventGraphicsMap.insert(gfxName, eventGraphics);
}
return true;
}
bool Project::readSpeciesIconPaths() {
speciesToIconPath.clear();
QString srcfilename = projectConfig.getFilePath(ProjectFilePath::pokemon_icon_table);
QString incfilename = projectConfig.getFilePath(ProjectFilePath::data_pokemon_gfx);
fileWatcher.addPath(root + "/" + srcfilename);
fileWatcher.addPath(root + "/" + incfilename);
QMap<QString, QString> monIconNames = parser.readNamedIndexCArray(srcfilename, "gMonIconTable");
QMap<QString, QString> iconIncbins = parser.readCIncbinMulti(incfilename);
for (QString species : monIconNames.keys()) {
QString path = iconIncbins[monIconNames.value(species)];
speciesToIconPath.insert(species, root + "/" + path.replace("4bpp", "png"));
}
return true;
}
void Project::setNewMapEvents(Map *map) {
map->events[Event::Group::Object].clear();
map->events[Event::Group::Warp].clear();
map->events[Event::Group::Heal].clear();
map->events[Event::Group::Coord].clear();
map->events[Event::Group::Bg].clear();
}
int Project::getNumTilesPrimary()
{
return Project::num_tiles_primary;
}
int Project::getNumTilesTotal()
{
return Project::num_tiles_total;
}
int Project::getNumMetatilesPrimary()
{
return Project::num_metatiles_primary;
}
int Project::getNumMetatilesTotal()
{
return Project::num_metatiles_total;
}
int Project::getNumPalettesPrimary()
{
return Project::num_pals_primary;
}
int Project::getNumPalettesTotal()
{
return Project::num_pals_total;
}
int Project::getMaxMapDataSize()
{
return Project::max_map_data_size;
}
int Project::getMapDataSize(int width, int height)
{
// + 15 and + 14 come from fieldmap.c in pokeruby/pokeemerald/pokefirered.
return (width + 15) * (height + 14);
}
int Project::getDefaultMapSize()
{
return Project::default_map_size;
}
int Project::getMaxMapWidth()
{
return (getMaxMapDataSize() / (1 + 14)) - 15;
}
int Project::getMaxMapHeight()
{
return (getMaxMapDataSize() / (1 + 15)) - 14;
}
bool Project::mapDimensionsValid(int width, int height) {
return getMapDataSize(width, height) <= getMaxMapDataSize();
}
// Get largest possible square dimensions for a map up to maximum of 20x20 (arbitrary)
bool Project::calculateDefaultMapSize(){
int max = getMaxMapDataSize();
if (max >= getMapDataSize(20, 20)) {
default_map_size = 20;
} else if (max >= getMapDataSize(1, 1)) {
// Below equation derived from max >= (x + 15) * (x + 14)
// x^2 + 29x + (210 - max), then complete the square and simplify
default_map_size = qFloor((qSqrt(4 * getMaxMapDataSize() + 1) - 29) / 2);
} else {
logError(QString("'MAX_MAP_DATA_SIZE' of %1 is too small to support a 1x1 map. Must be at least %2.")
.arg(max)
.arg(getMapDataSize(1, 1)));
return false;
}
return true;
}
int Project::getMaxObjectEvents()
{
return Project::max_object_events;
}
void Project::setImportExportPath(QString filename)
{
this->importExportPath = QFileInfo(filename).absolutePath();
}
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