#include "parseutil.h"
#include "project.h"
#include "tile.h"
#include "tileset.h"
#include "event.h"
#include <QDebug>
#include <QDir>
#include <QFile>
#include <QTextStream>
#include <QStandardItem>
#include <QMessageBox>
#include <QRegularExpression>
Project::Project()
{
groupNames = new QStringList;
map_groups = new QMap<QString, int>;
mapNames = new QStringList;
regionMapSections = new QStringList;
itemNames = new QStringList;
flagNames = new QStringList;
varNames = new QStringList;
movementTypes = new QStringList;
mapTypes = new QStringList;
mapBattleScenes = new QStringList;
weatherNames = new QStringList;
coordEventWeatherNames = new QStringList;
secretBaseIds = new QStringList;
bgEventFacingDirections = new QStringList;
map_cache = new QMap<QString, Map*>;
mapConstantsToMapNames = new QMap<QString, QString>;
mapNamesToMapConstants = new QMap<QString, QString>;
tileset_cache = new QMap<QString, Tileset*>;
}
QString Project::getProjectTitle() {
if (!root.isNull()) {
return root.section('/', -1);
} else {
return QString();
}
}
Map* Project::loadMap(QString map_name) {
Map *map;
if (map_cache->contains(map_name)) {
map = map_cache->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);
}
readMapHeader(map);
readMapLayout(map);
readMapEvents(map);
loadMapConnections(map);
map->commit();
map->history.save();
map_cache->insert(map_name, map);
return map;
}
void Project::loadMapConnections(Map *map) {
if (!map->isPersistedToFile) {
return;
}
map->connections.clear();
if (!map->connections_label.isNull()) {
QString path = root + QString("/data/maps/%1/connections.inc").arg(map->name);
QString text = readTextFile(path);
if (!text.isNull()) {
QList<QStringList> *commands = parseAsm(text);
QStringList *list = getLabelValues(commands, map->connections_label);
//// Avoid using this value. It ought to be generated instead.
//int num_connections = list->value(0).toInt(nullptr, 0);
QString connections_list_label = list->value(1);
QList<QStringList> *connections = getLabelMacros(commands, connections_list_label);
for (QStringList command : *connections) {
QString macro = command.value(0);
if (macro == "connection") {
Connection *connection = new Connection;
connection->direction = command.value(1);
connection->offset = command.value(2);
QString mapConstant = command.value(3);
if (mapConstantsToMapNames->contains(mapConstant)) {
connection->map_name = mapConstantsToMapNames->value(mapConstant);
map->connections.append(connection);
} else {
qDebug() << QString("Failed to find connected map for map constant '%1'").arg(mapConstant);
}
}
}
}
}
}
void Project::setNewMapConnections(Map *map) {
map->connections.clear();
}
QList<QStringList>* Project::getLabelMacros(QList<QStringList> *list, QString label) {
bool in_label = false;
QList<QStringList> *new_list = new QList<QStringList>;
for (int i = 0; i < list->length(); i++) {
QStringList params = list->value(i);
QString macro = params.value(0);
if (macro == ".label") {
if (params.value(1) == label) {
in_label = true;
} else if (in_label) {
// If nothing has been read yet, assume the label
// we're looking for is in a stack of labels.
if (new_list->length() > 0) {
break;
}
}
} else if (in_label) {
new_list->append(params);
}
}
return new_list;
}
// For if you don't care about filtering by macro,
// and just want all values associated with some label.
QStringList* Project::getLabelValues(QList<QStringList> *list, QString label) {
list = getLabelMacros(list, label);
QStringList *values = new QStringList;
for (int i = 0; i < list->length(); i++) {
QStringList params = list->value(i);
QString macro = params.value(0);
// Ignore .align
if (macro == ".align")
continue;
if (macro == ".ifdef")
continue;
if (macro == ".ifndef")
continue;
for (int j = 1; j < params.length(); j++) {
values->append(params.value(j));
}
}
return values;
}
void Project::readMapHeader(Map* map) {
if (!map->isPersistedToFile) {
return;
}
QString label = map->name;
ParseUtil *parser = new ParseUtil;
QString header_text = readTextFile(root + "/data/maps/" + label + "/header.inc");
if (header_text.isNull()) {
return;
}
QStringList *header = getLabelValues(parser->parseAsm(header_text), label);
map->layout_label = header->value(0);
map->events_label = header->value(1);
map->scripts_label = header->value(2);
map->connections_label = header->value(3);
map->song = header->value(4);
map->layout_id = header->value(5);
map->location = header->value(6);
map->requiresFlash = header->value(7);
map->weather = header->value(8);
map->type = header->value(9);
map->unknown = header->value(10);
map->show_location = header->value(11);
map->battle_scene = header->value(12);
}
void Project::setNewMapHeader(Map* map, int mapIndex) {
map->layout_label = QString("%1_Layout").arg(map->name);
map->events_label = QString("%1_MapEvents").arg(map->name);;
map->scripts_label = QString("%1_MapScripts").arg(map->name);;
map->connections_label = "0x0";
map->song = "MUS_DAN02";
map->layout_id = QString("%1").arg(mapIndex);
map->location = "MAPSEC_LITTLEROOT_TOWN";
map->requiresFlash = "FALSE";
map->weather = "WEATHER_SUNNY";
map->type = "MAP_TYPE_TOWN";
map->unknown = "0";
map->show_location = "TRUE";
map->battle_scene = "MAP_BATTLE_SCENE_NORMAL";
}
void Project::saveMapHeader(Map *map) {
QString label = map->name;
QString header_path = root + "/data/maps/" + label + "/header.inc";
QString text = "";
text += QString("%1::\n").arg(label);
text += QString("\t.4byte %1\n").arg(map->layout_label);
text += QString("\t.4byte %1\n").arg(map->events_label);
text += QString("\t.4byte %1\n").arg(map->scripts_label);
if (map->connections.length() == 0) {
map->connections_label = "0x0";
} else {
map->connections_label = QString("%1_MapConnections").arg(map->name);
}
text += QString("\t.4byte %1\n").arg(map->connections_label);
text += QString("\t.2byte %1\n").arg(map->song);
text += QString("\t.2byte %1\n").arg(map->layout_id);
text += QString("\t.byte %1\n").arg(map->location);
text += QString("\t.byte %1\n").arg(map->requiresFlash);
text += QString("\t.byte %1\n").arg(map->weather);
text += QString("\t.byte %1\n").arg(map->type);
text += QString("\t.2byte %1\n").arg(map->unknown);
text += QString("\t.byte %1\n").arg(map->show_location);
text += QString("\t.byte %1\n").arg(map->battle_scene);
saveTextFile(header_path, text);
}
void Project::saveMapConnections(Map *map) {
QString path = root + "/data/maps/" + map->name + "/connections.inc";
if (map->connections.length() > 0) {
QString text = "";
QString connectionsListLabel = QString("%1_MapConnectionsList").arg(map->name);
int numValidConnections = 0;
text += QString("%1::\n").arg(connectionsListLabel);
for (Connection* connection : map->connections) {
if (mapNamesToMapConstants->contains(connection->map_name)) {
text += QString("\tconnection %1, %2, %3\n")
.arg(connection->direction)
.arg(connection->offset)
.arg(mapNamesToMapConstants->value(connection->map_name));
numValidConnections++;
} else {
qDebug() << QString("Failed to write map connection. %1 not a valid map name").arg(connection->map_name);
}
}
text += QString("\n");
text += QString("%1::\n").arg(map->connections_label);
text += QString("\t.4byte %1\n").arg(numValidConnections);
text += QString("\t.4byte %1\n").arg(connectionsListLabel);
saveTextFile(path, text);
} else {
deleteFile(path);
}
updateMapsWithConnections(map);
}
void Project::updateMapsWithConnections(Map *map) {
if (map->connections.length() > 0) {
if (!mapsWithConnections.contains(map->name)) {
mapsWithConnections.append(map->name);
}
} else {
if (mapsWithConnections.contains(map->name)) {
mapsWithConnections.removeOne(map->name);
}
}
}
void Project::readMapLayoutsTable() {
QString layoutsText = readTextFile(getMapLayoutsTableFilepath());
QList<QStringList>* values = parseAsm(layoutsText);
bool inLayoutPointers = false;
for (int i = 0; i < values->length(); i++) {
QStringList params = values->value(i);
QString macro = params.value(0);
if (macro == ".label") {
if (inLayoutPointers) {
break;
}
if (params.value(1) == "gMapLayouts") {
inLayoutPointers = true;
}
} else if (macro == ".4byte" && inLayoutPointers) {
QString layoutName = params.value(1);
mapLayoutsTable.append(layoutName);
}
}
// Deep copy
mapLayoutsTableMaster = mapLayoutsTable;
mapLayoutsTableMaster.detach();
}
void Project::saveMapLayoutsTable() {
QString text = "";
text += QString("\t.align 2\n");
text += QString("gMapLayouts::\n");
for (QString layoutName : mapLayoutsTableMaster) {
text += QString("\t.4byte %1\n").arg(layoutName);
}
saveTextFile(getMapLayoutsTableFilepath(), text);
}
QString Project::getMapLayoutsTableFilepath() {
return QString("%1/data/layouts_table.inc").arg(root);
}
QStringList* Project::readLayoutValues(QString layoutLabel) {
ParseUtil *parser = new ParseUtil;
QString layoutText = readTextFile(getMapLayoutFilepath(layoutLabel));
if (layoutText.isNull()) {
return nullptr;
}
QStringList *layoutValues = getLabelValues(parser->parseAsm(layoutText), layoutLabel);
QString borderLabel = layoutValues->value(2);
QString blockdataLabel = layoutValues->value(3);
QStringList *borderValues = getLabelValues(parser->parseAsm(layoutText), borderLabel);
QString borderPath = borderValues->value(0).replace("\"", "");
layoutValues->append(borderPath);
QStringList *blockdataValues = getLabelValues(parser->parseAsm(layoutText), blockdataLabel);
QString blockdataPath = blockdataValues->value(0).replace("\"", "");
layoutValues->append(blockdataPath);
if (layoutValues->size() != 8) {
qDebug() << "Error: Unexpected number of properties in layout '" << layoutLabel << "'";
return nullptr;
}
return layoutValues;
}
void Project::readMapLayout(Map* map) {
if (!map->isPersistedToFile) {
return;
}
MapLayout *layout;
if (!mapLayouts.contains(map->layout_label)) {
QStringList *layoutValues = readLayoutValues(map->layout->label);
if (!layoutValues) {
return;
}
layout = new MapLayout();
mapLayouts.insert(map->layout_label, layout);
layout->name = MapLayout::getNameFromLabel(map->layout_label);
layout->label = map->layout_label;
layout->width = layoutValues->value(0);
layout->height = layoutValues->value(1);
layout->border_label = layoutValues->value(2);
layout->blockdata_label = layoutValues->value(3);
layout->tileset_primary_label = layoutValues->value(4);
layout->tileset_secondary_label = layoutValues->value(5);
layout->border_path = layoutValues->value(6);
layout->blockdata_path = layoutValues->value(7);
map->layout = layout;
} else {
map->layout = mapLayouts[map->layout_label];
}
loadMapTilesets(map);
loadBlockdata(map);
loadMapBorder(map);
}
void Project::readAllMapLayouts() {
mapLayouts.clear();
for (int i = 0; i < mapLayoutsTable.size(); i++) {
QString layoutLabel = mapLayoutsTable[i];
QStringList *layoutValues = readLayoutValues(layoutLabel);
if (!layoutValues) {
return;
}
MapLayout *layout = new MapLayout();
layout->name = MapLayout::getNameFromLabel(layoutLabel);
layout->label = layoutLabel;
layout->index = i;
layout->width = layoutValues->value(0);
layout->height = layoutValues->value(1);
layout->border_label = layoutValues->value(2);
layout->blockdata_label = layoutValues->value(3);
layout->tileset_primary_label = layoutValues->value(4);
layout->tileset_secondary_label = layoutValues->value(5);
layout->border_path = layoutValues->value(6);
layout->blockdata_path = layoutValues->value(7);
mapLayouts.insert(layoutLabel, layout);
}
// Deep copy
mapLayoutsMaster = mapLayouts;
mapLayoutsMaster.detach();
}
void Project::saveAllMapLayouts() {
for (QString layoutName : mapLayoutsTableMaster) {
MapLayout *layout = mapLayouts.value(layoutName);
QString text = QString("%1::\n").arg(layout->border_label);
text += QString("\t.incbin \"%1\"\n").arg(layout->border_path);
text += QString("\n");
text += QString("%1::\n").arg(layout->blockdata_label);
text += QString("\t.incbin \"%1\"\n").arg(layout->blockdata_path);
text += QString("\n");
text += QString("\t.align 2\n");
text += QString("%1::\n").arg(layoutName);
text += QString("\t.4byte %1\n").arg(layout->width);
text += QString("\t.4byte %1\n").arg(layout->height);
text += QString("\t.4byte %1\n").arg(layout->border_label);
text += QString("\t.4byte %1\n").arg(layout->blockdata_label);
text += QString("\t.4byte %1\n").arg(layout->tileset_primary_label);
text += QString("\t.4byte %1\n").arg(layout->tileset_secondary_label);
text += QString("\n");
saveTextFile(getMapLayoutFilepath(layout->label), text);
}
}
QString Project::getMapLayoutFilepath(QString layoutLabel) {
return QString("%1/data/layouts/%2/layout.inc").arg(root).arg(MapLayout::getNameFromLabel(layoutLabel));
}
void Project::setNewMapLayout(Map* map) {
MapLayout *layout = new MapLayout();
layout->label = QString("%1_Layout").arg(map->name);
layout->name = MapLayout::getNameFromLabel(layout->label);
layout->width = "20";
layout->height = "20";
layout->border_label = QString("%1_MapBorder").arg(map->name);
layout->border_path = QString("data/layouts/%1/border.bin").arg(map->name);
layout->blockdata_label = QString("%1_MapBlockdata").arg(map->name);
layout->blockdata_path = QString("data/layouts/%1/map.bin").arg(map->name);
layout->tileset_primary_label = "gTileset_General";
layout->tileset_secondary_label = "gTileset_Petalburg";
map->layout = layout;
map->layout_label = layout->label;
// Insert new entry into the global map layouts.
mapLayouts.insert(layout->label, layout);
mapLayoutsTable.append(layout->label);
}
void Project::saveMapGroupsTable() {
QString text = "";
int groupNum = 0;
for (QStringList mapNames : groupedMapNames) {
text += QString("\t.align 2\n");
text += QString("gMapGroup%1::\n").arg(groupNum);
for (QString mapName : mapNames) {
text += QString("\t.4byte %1\n").arg(mapName);
}
text += QString("\n");
groupNum++;
}
text += QString("\t.align 2\n");
text += QString("gMapGroups::\n");
for (int i = 0; i < groupNum; i++) {
text += QString("\t.4byte gMapGroup%1\n").arg(i);
}
saveTextFile(root + "/data/maps/groups.inc", text);
}
void Project::saveMapConstantsHeader() {
QString text = QString("#ifndef GUARD_CONSTANTS_MAPS_H\n");
text += QString("#define GUARD_CONSTANTS_MAPS_H\n");
text += QString("\n");
int groupNum = 0;
for (QStringList mapNames : groupedMapNames) {
text += QString("// Map Group %1\n").arg(groupNum);
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("\n");
text += QString("#define MAP_NONE (0x7F | (0x7F << 8))\n");
text += QString("#define MAP_UNDEFINED (0xFF | (0xFF << 8))\n\n\n");
text += QString("#define MAP_GROUP(map) (MAP_##map >> 8)\n");
text += QString("#define MAP_NUM(map) (MAP_##map & 0xFF)\n\n");
text += QString("#endif // GUARD_CONSTANTS_MAPS_H\n");
saveTextFile(root + "/include/constants/maps.h", text);
}
// saves heal location coords in root + /src/data/heal_locations.h
// and indexes as defines in root + /include/constants/heal_locations.h
void Project::saveHealLocationStruct(Map *map) {
QString tab = QString(" ");
QString data_text = QString("static const struct HealLocation sHealLocations[] =\n{\n");
QString constants_text = QString("#ifndef GUARD_CONSTANTS_HEAL_LOCATIONS_H\n");
constants_text += QString("#define GUARD_CONSTANTS_HEAL_LOCATIONS_H\n\n");
QMap<QString, int> flyableMapsDupes;
QSet<QString> flyableMapsUnique;
// set flyableMapsDupes and flyableMapsUnique
for (auto it = flyableMaps.begin(); it != flyableMaps.end(); it++) {
HealLocation loc = *it;
QString xname = loc.name;
if (flyableMapsUnique.contains(xname)) {
flyableMapsDupes[xname] = 1;
}
flyableMapsUnique.insert(xname);
}
// set new location in flyableMapsList
if (map->events["heal_event_group"].length() > 0) {
for (Event *heal : map->events["heal_event_group"]) {
HealLocation hl = heal->buildHealLocation();
flyableMaps[hl.index - 1] = hl;
}
}
int i = 1;
for (auto map_in : flyableMaps) {
data_text += QString(" {MAP_GROUP(%1), MAP_NUM(%1), %2, %3},\n")
.arg(map_in.name)
.arg(map_in.x)
.arg(map_in.y);
QString ending = QString("");
// must add _1 / _2 for maps that have duplicates
if (flyableMapsDupes.keys().contains(map_in.name)) {
// map contains multiple heal locations
ending += QString("_%1").arg(flyableMapsDupes[map_in.name]);
flyableMapsDupes[map_in.name]++;
}
if (map_in.index != 0) {
constants_text += QString("#define HEAL_LOCATION_%1 %2\n")
.arg(map_in.name + ending)
.arg(map_in.index);
}
else {
constants_text += QString("#define HEAL_LOCATION_%1 %2\n")
.arg(map_in.name + ending)
.arg(i);
}
i++;
}
data_text += QString("};\n");
constants_text += QString("\n#endif // GUARD_CONSTANTS_HEAL_LOCATIONS_H\n");
saveTextFile(root + "/src/data/heal_locations.h", data_text);
saveTextFile(root + "/include/constants/heal_locations.h", constants_text);
}
void Project::loadMapTilesets(Map* map) {
if (map->layout->has_unsaved_changes) {
return;
}
map->layout->tileset_primary = getTileset(map->layout->tileset_primary_label);
map->layout->tileset_secondary = getTileset(map->layout->tileset_secondary_label);
}
Tileset* Project::loadTileset(QString label) {
ParseUtil *parser = new ParseUtil;
QString headers_text = readTextFile(root + "/data/tilesets/headers.inc");
QStringList *values = getLabelValues(parser->parseAsm(headers_text), label);
Tileset *tileset = new Tileset;
tileset->name = label;
tileset->is_compressed = values->value(0);
tileset->is_secondary = values->value(1);
tileset->padding = values->value(2);
tileset->tiles_label = values->value(3);
tileset->palettes_label = values->value(4);
tileset->metatiles_label = values->value(5);
tileset->metatile_attrs_label = values->value(6);
tileset->callback_label = values->value(7);
loadTilesetAssets(tileset);
tileset_cache->insert(label, tileset);
return tileset;
}
void Project::loadBlockdata(Map* map) {
if (!map->isPersistedToFile || map->layout->has_unsaved_changes) {
return;
}
QString path = QString("%1/%2").arg(root).arg(map->layout->blockdata_path);
map->layout->blockdata = readBlockdata(path);
}
void Project::setNewMapBlockdata(Map* map) {
Blockdata *blockdata = new Blockdata;
for (int i = 0; i < map->getWidth() * map->getHeight(); i++) {
blockdata->addBlock(qint16(0x3001));
}
map->layout->blockdata = blockdata;
}
void Project::loadMapBorder(Map *map) {
if (!map->isPersistedToFile || map->layout->has_unsaved_changes) {
return;
}
QString path = QString("%1/%2").arg(root).arg(map->layout->border_path);
map->layout->border = readBlockdata(path);
}
void Project::setNewMapBorder(Map *map) {
Blockdata *blockdata = new Blockdata;
blockdata->addBlock(qint16(0x01D4));
blockdata->addBlock(qint16(0x01D5));
blockdata->addBlock(qint16(0x01DC));
blockdata->addBlock(qint16(0x01DD));
map->layout->border = blockdata;
}
void Project::saveMapBorder(Map *map) {
QString path = QString("%1/%2").arg(root).arg(map->layout->border_path);
writeBlockdata(path, map->layout->border);
}
void Project::saveBlockdata(Map* map) {
QString path = QString("%1/%2").arg(root).arg(map->layout->blockdata_path);
writeBlockdata(path, map->layout->blockdata);
map->history.save();
}
void Project::writeBlockdata(QString path, Blockdata *blockdata) {
QFile file(path);
if (file.open(QIODevice::WriteOnly)) {
QByteArray data = blockdata->serialize();
file.write(data);
} else {
qDebug() << "Failed to open blockdata file for writing: '" << path << "'";
}
}
void Project::saveAllMaps() {
QList<QString> keys = map_cache->keys();
for (int i = 0; i < keys.length(); i++) {
QString key = keys.value(i);
Map* map = map_cache->value(key);
saveMap(map);
}
}
void Project::saveMap(Map *map) {
// Create/Modify a few collateral files for brand new maps.
if (!map->isPersistedToFile) {
QString newMapDataDir = QString(root + "/data/maps/%1").arg(map->name);
if (!QDir::root().mkdir(newMapDataDir)) {
qDebug() << "Error: failed to create directory for new map. " << newMapDataDir;
}
QString newLayoutDir = QString(root + "/data/layouts/%1").arg(map->name);
if (!QDir::root().mkdir(newLayoutDir)) {
qDebug() << "Error: failed to create directory for new layout. " << newLayoutDir;
}
// TODO: In the future, these files needs more structure to allow for proper parsing/saving.
// Create file data/maps/<map_name>/scripts.inc
QString text = QString("%1_MapScripts::\n\t.byte 0\n").arg(map->name);
saveTextFile(root + "/data/maps/" + map->name + "/scripts.inc", text);
// Create file data/maps/<map_name>/text.inc
saveTextFile(root + "/data/maps/" + map->name + "/text.inc", "\n");
// Simply append to data/event_scripts.s.
text = QString("\n\t.include \"data/maps/%1/scripts.inc\"\n").arg(map->name);
text += QString("\t.include \"data/maps/%1/text.inc\"\n").arg(map->name);
appendTextFile(root + "/data/event_scripts.s", text);
// Simply append to data/map_events.s.
text = QString("\n\t.include \"data/maps/%1/events.inc\"\n").arg(map->name);
appendTextFile(root + "/data/map_events.s", text);
// Simply append to data/maps/headers.inc.
text = QString("\t.include \"data/maps/%1/header.inc\"\n").arg(map->name);
appendTextFile(root + "/data/maps/headers.inc", text);
// Simply append to data/layouts.inc.
text = QString("\t.include \"data/layouts/%1/layout.inc\"\n").arg(map->layout->name);
appendTextFile(root + "/data/layouts.inc", text);
}
saveMapBorder(map);
saveMapHeader(map);
saveMapConnections(map);
saveBlockdata(map);
saveMapEvents(map);
// Update global data structures with current map data.
updateMapLayout(map);
map->isPersistedToFile = true;
map->layout->has_unsaved_changes = false;
}
void Project::updateMapLayout(Map* map) {
if (!mapLayoutsTableMaster.contains(map->layout_label)) {
mapLayoutsTableMaster.append(map->layout_label);
}
// Deep copy
MapLayout *layout = mapLayouts.value(map->layout_label);
MapLayout *newLayout = new MapLayout();
*newLayout = *layout;
mapLayoutsMaster.insert(map->layout_label, newLayout);
}
void Project::saveAllDataStructures() {
saveMapLayoutsTable();
saveAllMapLayouts();
saveMapGroupsTable();
saveMapConstantsHeader();
saveMapsWithConnections();
}
void Project::loadTilesetAssets(Tileset* tileset) {
ParseUtil* parser = new ParseUtil;
QString category = (tileset->is_secondary == "TRUE") ? "secondary" : "primary";
if (tileset->name.isNull()) {
return;
}
QString dir_path = root + "/data/tilesets/" + category + "/" + tileset->name.replace("gTileset_", "").toLower();
QString graphics_text = readTextFile(root + "/data/tilesets/graphics.inc");
QList<QStringList> *graphics = parser->parseAsm(graphics_text);
QStringList *tiles_values = getLabelValues(graphics, tileset->tiles_label);
QStringList *palettes_values = getLabelValues(graphics, tileset->palettes_label);
QString tiles_path;
if (!tiles_values->isEmpty()) {
tiles_path = root + "/" + tiles_values->value(0).section('"', 1, 1);
} else {
tiles_path = dir_path + "/tiles.4bpp";
if (tileset->is_compressed == "TRUE") {
tiles_path += ".lz";
}
}
QStringList *palette_paths = new QStringList;
if (!palettes_values->isEmpty()) {
for (int i = 0; i < palettes_values->length(); i++) {
QString value = palettes_values->value(i);
palette_paths->append(root + "/" + value.section('"', 1, 1));
}
} else {
QString palettes_dir_path = dir_path + "/palettes";
for (int i = 0; i < 16; i++) {
palette_paths->append(palettes_dir_path + "/" + QString("%1").arg(i, 2, 10, QLatin1Char('0')) + ".gbapal");
}
}
QString metatiles_path;
QString metatile_attrs_path;
QString metatiles_text = readTextFile(root + "/data/tilesets/metatiles.inc");
QList<QStringList> *metatiles_macros = parser->parseAsm(metatiles_text);
QStringList *metatiles_values = getLabelValues(metatiles_macros, tileset->metatiles_label);
if (!metatiles_values->isEmpty()) {
metatiles_path = root + "/" + metatiles_values->value(0).section('"', 1, 1);
} else {
metatiles_path = dir_path + "/metatiles.bin";
}
QStringList *metatile_attrs_values = getLabelValues(metatiles_macros, tileset->metatile_attrs_label);
if (!metatile_attrs_values->isEmpty()) {
metatile_attrs_path = root + "/" + metatile_attrs_values->value(0).section('"', 1, 1);
} else {
metatile_attrs_path = dir_path + "/metatile_attributes.bin";
}
// tiles
tiles_path = fixGraphicPath(tiles_path);
QImage *image = new QImage(tiles_path);
//image->setColor(0, qRgb(0xff, 0, 0)); // debug
QList<QImage> *tiles = new QList<QImage>;
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->tiles = tiles;
// metatiles
QFile metatiles_file(metatiles_path);
if (metatiles_file.open(QIODevice::ReadOnly)) {
QByteArray data = metatiles_file.readAll();
int num_metatiles = data.length() / 16;
int num_layers = 2;
QList<Metatile*> *metatiles = new QList<Metatile*>;
for (int i = 0; i < num_metatiles; i++) {
Metatile *metatile = new Metatile;
int index = i * (2 * 4 * num_layers);
for (int j = 0; j < 4 * num_layers; j++) {
uint16_t word = data[index++] & 0xff;
word += (data[index++] & 0xff) << 8;
Tile tile;
tile.tile = word & 0x3ff;
tile.xflip = (word >> 10) & 1;
tile.yflip = (word >> 11) & 1;
tile.palette = (word >> 12) & 0xf;
metatile->tiles->append(tile);
}
metatiles->append(metatile);
}
tileset->metatiles = metatiles;
} else {
tileset->metatiles = new QList<Metatile*>;
qDebug() << QString("Could not open '%1'").arg(metatiles_path);
}
QFile attrs_file(metatile_attrs_path);
//qDebug() << metatile_attrs_path;
if (attrs_file.open(QIODevice::ReadOnly)) {
QByteArray data = attrs_file.readAll();
int num_metatiles = tileset->metatiles->count();
int num_metatileAttrs = data.length() / 2;
if (num_metatiles != num_metatileAttrs) {
qDebug() << QString("Metatile count %1 does not match metatile attribute count %2").arg(num_metatiles).arg(num_metatileAttrs);
if (num_metatiles > num_metatileAttrs)
num_metatiles = num_metatileAttrs;
}
for (int i = 0; i < num_metatiles; i++) {
uint16_t word = data[i*2] & 0xff;
word += (data[i*2 + 1] & 0xff) << 8;
tileset->metatiles->value(i)->attr = word;
}
} else {
qDebug() << QString("Could not open '%1'").arg(metatile_attrs_path);
}
// palettes
QList<QList<QRgb>> *palettes = new QList<QList<QRgb>>;
for (int i = 0; i < palette_paths->length(); i++) {
QString path = palette_paths->value(i);
// the palettes are not compressed. this should never happen. it's only a precaution.
path = path.replace(QRegExp("\\.lz$"), "");
// TODO default to .pal (JASC-PAL)
// just use .gbapal for now
QFile file(path);
QList<QRgb> palette;
if (file.open(QIODevice::ReadOnly)) {
QByteArray data = file.readAll();
for (int j = 0; j < 16; j++) {
uint16_t word = data[j*2] & 0xff;
word += (data[j*2 + 1] & 0xff) << 8;
int red = word & 0x1f;
int green = (word >> 5) & 0x1f;
int blue = (word >> 10) & 0x1f;
QRgb color = qRgb(red * 8, green * 8, blue * 8);
palette.append(color);
}
} else {
for (int j = 0; j < 16; j++) {
palette.append(qRgb(j * 16, j * 16, j * 16));
}
qDebug() << QString("Could not open palette path '%1'").arg(path);
}
palettes->append(palette);
}
tileset->palettes = palettes;
}
Blockdata* Project::readBlockdata(QString path) {
Blockdata *blockdata = new 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->addBlock(word);
}
} else {
qDebug() << "Failed to open blockdata path '" << path << "'";
}
return blockdata;
}
Map* Project::getMap(QString map_name) {
if (map_cache->contains(map_name)) {
return map_cache->value(map_name);
} else {
Map *map = loadMap(map_name);
return map;
}
}
Tileset* Project::getTileset(QString label) {
if (tileset_cache->contains(label)) {
return tileset_cache->value(label);
} else {
Tileset *tileset = loadTileset(label);
return tileset;
}
}
QString Project::readTextFile(QString path) {
QFile file(path);
if (!file.open(QIODevice::ReadOnly)) {
//QMessageBox::information(0, "Error", QString("Could not open '%1': ").arg(path) + file.errorString());
qDebug() << QString("Could not open '%1': ").arg(path) + file.errorString();
return QString();
}
QTextStream in(&file);
QString text = "";
while (!in.atEnd()) {
text += in.readLine() + "\n";
}
return text;
}
void Project::saveTextFile(QString path, QString text) {
QFile file(path);
if (file.open(QIODevice::WriteOnly)) {
file.write(text.toUtf8());
} else {
qDebug() << 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 {
qDebug() << QString("Could not open '%1' for appending: ").arg(path) + file.errorString();
}
}
void Project::deleteFile(QString path) {
QFile file(path);
if (file.exists() && !file.remove()) {
qDebug() << QString("Could not delete file '%1': ").arg(path) + file.errorString();
}
}
void Project::readMapGroups() {
QString text = readTextFile(root + "/data/maps/groups.inc");
if (text.isNull()) {
return;
}
ParseUtil *parser = new ParseUtil;
QList<QStringList> *commands = parser->parseAsm(text);
bool in_group_pointers = false;
QStringList *groups = new QStringList;
for (int i = 0; i < commands->length(); i++) {
QStringList params = commands->value(i);
QString macro = params.value(0);
if (macro == ".label") {
if (in_group_pointers) {
break;
}
if (params.value(1) == "gMapGroups") {
in_group_pointers = true;
}
} else if (macro == ".4byte") {
if (in_group_pointers) {
for (int j = 1; j < params.length(); j++) {
groups->append(params.value(j));
}
}
}
}
QList<QStringList> groupedMaps;
for (int i = 0; i < groups->length(); i++) {
groupedMaps.append(QStringList());
}
QStringList *maps = new QStringList;
int group = -1;
for (int i = 0; i < commands->length(); i++) {
QStringList params = commands->value(i);
QString macro = params.value(0);
if (macro == ".label") {
group = groups->indexOf(params.value(1));
} else if (macro == ".4byte") {
if (group != -1) {
for (int j = 1; j < params.length(); j++) {
QString mapName = params.value(j);
groupedMaps[group].append(mapName);
maps->append(mapName);
map_groups->insert(mapName, group);
// 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(NONE_MAP_CONSTANT, NONE_MAP_NAME);
mapNamesToMapConstants->insert(NONE_MAP_NAME, NONE_MAP_CONSTANT);
maps->append(NONE_MAP_NAME);
groupNames = groups;
groupedMapNames = groupedMaps;
mapNames = maps;
QString hltext = readTextFile(root + QString("/src/data/heal_locations.h"));
QList<HealLocation>* hl = parser->parseHealLocs(hltext);
flyableMaps = *hl;
delete hl;
}
Map* Project::addNewMapToGroup(QString mapName, int groupNum) {
// Setup new map in memory, but don't write to file until map is actually saved later.
mapNames->append(mapName);
map_groups->insert(mapName, groupNum);
groupedMapNames[groupNum].append(mapName);
Map *map = new Map;
map->isPersistedToFile = false;
map->setName(mapName);
mapConstantsToMapNames->insert(map->constantName, map->name);
mapNamesToMapConstants->insert(map->name, map->constantName);
setNewMapHeader(map, mapLayoutsTable.size() + 1);
setNewMapLayout(map);
loadMapTilesets(map);
setNewMapBlockdata(map);
setNewMapBorder(map);
setNewMapEvents(map);
setNewMapConnections(map);
map->commit();
map->history.save();
map_cache->insert(mapName, map);
return map;
}
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;
}
QList<QStringList>* Project::parseAsm(QString text) {
ParseUtil *parser = new ParseUtil;
return parser->parseAsm(text);
}
QStringList Project::getVisibilities() {
// TODO
QStringList names;
for (int i = 0; i < 16; i++) {
names.append(QString("%1").arg(i));
}
return names;
}
QMap<QString, QStringList> Project::getTilesets() {
QMap<QString, QStringList> allTilesets;
QStringList primaryTilesets;
QStringList secondaryTilesets;
allTilesets.insert("primary", primaryTilesets);
allTilesets.insert("secondary", secondaryTilesets);
QString headers_text = readTextFile(root + "/data/tilesets/headers.inc");
QList<QStringList>* commands = parseAsm(headers_text);
int i = 0;
while (i < commands->length()) {
if (commands->at(i).length() != 2)
continue;
if (commands->at(i).at(0) == ".label") {
QString tilesetLabel = commands->at(i).at(1);
// Advance to command specifying whether or not it is a secondary tileset
i += 2;
if (commands->at(i).at(0) != ".byte") {
qDebug() << "Unexpected command found for secondary tileset flag in tileset" << tilesetLabel << ". Expected '.byte', but found: " << commands->at(i).at(0);
continue;
}
QString secondaryTilesetValue = commands->at(i).at(1);
if (secondaryTilesetValue != "TRUE" && secondaryTilesetValue != "FALSE" && secondaryTilesetValue != "0" && secondaryTilesetValue != "1") {
qDebug() << "Unexpected secondary tileset flag found. Expected \"TRUE\", \"FALSE\", \"0\", or \"1\", but found: " << secondaryTilesetValue;
continue;
}
bool isSecondaryTileset = (secondaryTilesetValue == "TRUE" || secondaryTilesetValue == "1");
if (isSecondaryTileset)
allTilesets["secondary"].append(tilesetLabel);
else
allTilesets["primary"].append(tilesetLabel);
}
i++;
}
return allTilesets;
}
void Project::readRegionMapSections() {
QString filepath = root + "/include/constants/region_map_sections.h";
QStringList prefixes = (QStringList() << "MAPSEC_");
readCDefinesSorted(filepath, prefixes, regionMapSections);
}
void Project::readItemNames() {
QString filepath = root + "/include/constants/items.h";
QStringList prefixes = (QStringList() << "ITEM_");
readCDefinesSorted(filepath, prefixes, itemNames);
}
void Project::readFlagNames() {
QString filepath = root + "/include/constants/flags.h";
QStringList prefixes = (QStringList() << "FLAG_");
readCDefinesSorted(filepath, prefixes, flagNames);
}
void Project::readVarNames() {
QString filepath = root + "/include/constants/vars.h";
QStringList prefixes = (QStringList() << "VAR_");
readCDefinesSorted(filepath, prefixes, varNames);
}
void Project::readMovementTypes() {
QString filepath = root + "/include/constants/event_object_movement_constants.h";
QStringList prefixes = (QStringList() << "MOVEMENT_TYPE_");
readCDefinesSorted(filepath, prefixes, movementTypes);
}
void Project::readMapTypes() {
QString filepath = root + "/include/constants/map_types.h";
QStringList prefixes = (QStringList() << "MAP_TYPE_");
readCDefinesSorted(filepath, prefixes, mapTypes);
}
void Project::readMapBattleScenes() {
QString filepath = root + "/include/constants/map_types.h";
QStringList prefixes = (QStringList() << "MAP_BATTLE_SCENE_");
readCDefinesSorted(filepath, prefixes, mapBattleScenes);
}
void Project::readWeatherNames() {
QString filepath = root + "/include/constants/weather.h";
QStringList prefixes = (QStringList() << "WEATHER_");
readCDefinesSorted(filepath, prefixes, weatherNames);
}
void Project::readCoordEventWeatherNames() {
QString filepath = root + "/include/constants/weather.h";
QStringList prefixes = (QStringList() << "COORD_EVENT_WEATHER_");
readCDefinesSorted(filepath, prefixes, coordEventWeatherNames);
}
void Project::readSecretBaseIds() {
QString filepath = root + "/include/constants/secret_bases.h";
QStringList prefixes = (QStringList() << "SECRET_BASE_");
readCDefinesSorted(filepath, prefixes, secretBaseIds);
}
void Project::readBgEventFacingDirections() {
QString filepath = root + "/include/constants/bg_event_constants.h";
QStringList prefixes = (QStringList() << "BG_EVENT_PLAYER_FACING_");
readCDefinesSorted(filepath, prefixes, bgEventFacingDirections);
}
void Project::readCDefinesSorted(QString filepath, QStringList prefixes, QStringList* definesToSet) {
QString text = readTextFile(filepath);
if (!text.isNull()) {
QMap<QString, int> defines = readCDefines(text, prefixes);
// The defines should to be sorted by their underlying value, not alphabetically.
// Reverse the map and read out the resulting keys in order.
QMultiMap<int, QString> definesInverse;
for (QString defineName : defines.keys()) {
definesInverse.insert(defines[defineName], defineName);
}
*definesToSet = definesInverse.values();
} else {
qDebug() << "Failed to read C defines file: " << filepath;
}
}
void Project::readMapsWithConnections() {
QString path = root + "/data/maps/connections.inc";
QString text = readTextFile(path);
if (text.isNull()) {
return;
}
mapsWithConnections.clear();
QRegularExpression re("data\\/maps\\/(?<mapName>\\w+)\\/connections.inc");
QList<QStringList>* includes = parseAsm(text);
for (QStringList values : *includes) {
if (values.length() != 2)
continue;
QRegularExpressionMatch match = re.match(values.value(1));
if (match.hasMatch()) {
QString mapName = match.captured("mapName");
mapsWithConnections.append(mapName);
}
}
}
void Project::saveMapsWithConnections() {
QString path = root + "/data/maps/connections.inc";
QString text = "";
for (QString mapName : mapsWithConnections) {
if (mapNamesToMapConstants->contains(mapName)) {
text += QString("\t.include \"data/maps/%1/connections.inc\"\n").arg(mapName);
} else {
qDebug() << QString("Failed to write connection include. %1 not a valid map name").arg(mapName);
}
}
saveTextFile(path, text);
}
QStringList Project::getSongNames() {
QStringList names;
QString text = readTextFile(root + "/include/constants/songs.h");
if (!text.isNull()) {
QStringList songDefinePrefixes;
songDefinePrefixes << "SE_" << "MUS_";
QMap<QString, int> songDefines = readCDefines(text, songDefinePrefixes);
names = songDefines.keys();
}
return names;
}
QMap<QString, int> Project::getEventObjGfxConstants() {
QMap<QString, int> constants;
QString text = readTextFile(root + "/include/constants/event_objects.h");
if (!text.isNull()) {
QStringList eventObjGfxPrefixes;
eventObjGfxPrefixes << "EVENT_OBJ_GFX_";
constants = readCDefines(text, eventObjGfxPrefixes);
}
return constants;
}
QString Project::fixGraphicPath(QString path) {
path = path.replace(QRegExp("\\.lz$"), "");
path = path.replace(QRegExp("\\.[1248]bpp$"), ".png");
return path;
}
void Project::loadEventPixmaps(QList<Event*> objects) {
bool needs_update = false;
for (Event *object : objects) {
if (object->pixmap.isNull()) {
needs_update = true;
break;
}
}
if (!needs_update) {
return;
}
QMap<QString, int> constants = getEventObjGfxConstants();
QString pointers_text = readTextFile(root + "/src/data/field_event_obj/event_object_graphics_info_pointers.h");
QString info_text = readTextFile(root + "/src/data/field_event_obj/event_object_graphics_info.h");
QString pic_text = readTextFile(root + "/src/data/field_event_obj/event_object_pic_tables.h");
QString assets_text = readTextFile(root + "/src/data/field_event_obj/event_object_graphics.h");
QStringList pointers = readCArray(pointers_text, "gEventObjectGraphicsInfoPointers");
for (Event *object : objects) {
if (!object->pixmap.isNull()) {
continue;
}
object->spriteWidth = 16;
object->spriteHeight = 16;
QString event_type = object->get("event_type");
if (event_type == EventType::Object) {
object->pixmap = QPixmap(":/images/Entities_16x16.png").copy(0, 0, 16, 16);
} else if (event_type == EventType::Warp) {
object->pixmap = QPixmap(":/images/Entities_16x16.png").copy(16, 0, 16, 16);
} else if (event_type == EventType::CoordScript || event_type == EventType::CoordWeather) {
object->pixmap = QPixmap(":/images/Entities_16x16.png").copy(32, 0, 16, 16);
} else if (event_type == EventType::Sign || event_type == EventType::HiddenItem || event_type == EventType::SecretBase) {
object->pixmap = QPixmap(":/images/Entities_16x16.png").copy(48, 0, 16, 16);
} else if (event_type == EventType::HealLocation) {
object->pixmap = QPixmap(":/images/Entities_16x16.png").copy(64, 0, 16, 16);
}
if (event_type == EventType::Object) {
int sprite_id = constants.value(object->get("sprite"));
QString info_label = pointers.value(sprite_id).replace("&", "");
QStringList gfx_info = readCArray(info_text, info_label);
QString pic_label = gfx_info.value(14);
QString dimensions_label = gfx_info.value(11);
QString subsprites_label = gfx_info.value(12);
QString gfx_label = readCArray(pic_text, pic_label).value(0);
gfx_label = gfx_label.section(QRegExp("[\\(\\)]"), 1, 1);
QString path = readCIncbin(assets_text, gfx_label);
if (!path.isNull()) {
path = fixGraphicPath(path);
QImage spritesheet(root + "/" + path);
if (!spritesheet.isNull()) {
// Infer the sprite dimensions from the OAM labels.
int spriteWidth = spritesheet.width();
int spriteHeight = spritesheet.height();
QRegularExpression re("\\S+_(\\d+)x(\\d+)");
QRegularExpressionMatch dimensionMatch = re.match(dimensions_label);
if (dimensionMatch.hasMatch()) {
QRegularExpressionMatch oamTablesMatch = re.match(subsprites_label);
if (oamTablesMatch.hasMatch()) {
spriteWidth = dimensionMatch.captured(1).toInt();
spriteHeight = dimensionMatch.captured(2).toInt();
}
}
object->setPixmapFromSpritesheet(spritesheet, spriteWidth, spriteHeight);
}
}
}
}
}
void Project::saveMapEvents(Map *map) {
QString path = root + QString("/data/maps/%1/events.inc").arg(map->name);
QString text = "";
QString objectEventsLabel = "0x0";
QString warpEventsLabel = "0x0";
QString coordEventsLabel = "0x0";
QString bgEventsLabel = "0x0";
if (map->events["object_event_group"].length() > 0) {
objectEventsLabel = Map::objectEventsLabelFromName(map->name);
text += QString("%1::\n").arg(objectEventsLabel);
for (int i = 0; i < map->events["object_event_group"].length(); i++) {
Event *object_event = map->events["object_event_group"].value(i);
text += object_event->buildObjectEventMacro(i);
}
text += "\n";
}
if (map->events["warp_event_group"].length() > 0) {
warpEventsLabel = Map::warpEventsLabelFromName(map->name);
text += QString("%1::\n").arg(warpEventsLabel);
for (Event *warp : map->events["warp_event_group"]) {
text += warp->buildWarpEventMacro(mapNamesToMapConstants);
}
text += "\n";
}
if (map->events["coord_event_group"].length() > 0) {
coordEventsLabel = Map::coordEventsLabelFromName(map->name);
text += QString("%1::\n").arg(coordEventsLabel);
for (Event *event : map->events["coord_event_group"]) {
QString event_type = event->get("event_type");
if (event_type == EventType::CoordScript) {
text += event->buildCoordScriptEventMacro();
} else if (event_type == EventType::CoordWeather) {
text += event->buildCoordWeatherEventMacro();
}
}
text += "\n";
}
if (map->events["bg_event_group"].length() > 0)
{
bgEventsLabel = Map::bgEventsLabelFromName(map->name);
text += QString("%1::\n").arg(bgEventsLabel);
for (Event *event : map->events["bg_event_group"]) {
QString event_type = event->get("event_type");
if (event_type == EventType::Sign) {
text += event->buildSignEventMacro();
} else if (event_type == EventType::HiddenItem) {
text += event->buildHiddenItemEventMacro();
} else if (event_type == EventType::SecretBase) {
text += event->buildSecretBaseEventMacro();
}
}
text += "\n";
}
text += QString("%1::\n").arg(map->events_label);
text += QString("\tmap_events %1, %2, %3, %4\n")
.arg(objectEventsLabel)
.arg(warpEventsLabel)
.arg(coordEventsLabel)
.arg(bgEventsLabel);
saveTextFile(path, text);
// save heal event changes
if (map->events["heal_event_group"].length() > 0) {
for (Event *heal : map->events["heal_event_group"]) {
HealLocation hl = heal->buildHealLocation();
flyableMaps[hl.index - 1] = hl;
}
}
saveHealLocationStruct(map);
}
void Project::readMapEvents(Map *map) {
if (!map->isPersistedToFile) {
return;
}
// lazy
QString path = root + QString("/data/maps/%1/events.inc").arg(map->name);
QString text = readTextFile(path);
if (text.isNull()) {
return;
}
QStringList *labels = getLabelValues(parseAsm(text), map->events_label);
QString objectEventsLabel = labels->value(0);
QString warpEventsLabel = labels->value(1);
QString coordEventsLabel = labels->value(2);
QString bgEventsLabel = labels->value(3);
QList<QStringList> *object_events = getLabelMacros(parseAsm(text), objectEventsLabel);
map->events["object_event_group"].clear();
for (QStringList command : *object_events) {
if (command.value(0) == "object_event") {
Event *object = new Event;
object->put("map_name", map->name);
int i = 2;
object->put("sprite", command.value(i++));
object->put("replacement", command.value(i++));
object->put("x", command.value(i++).toInt(nullptr, 0));
object->put("y", command.value(i++).toInt(nullptr, 0));
object->put("elevation", command.value(i++));
object->put("movement_type", command.value(i++));
object->put("radius_x", command.value(i++).toInt(nullptr, 0));
object->put("radius_y", command.value(i++).toInt(nullptr, 0));
object->put("is_trainer", command.value(i++));
object->put("sight_radius_tree_id", command.value(i++));
object->put("script_label", command.value(i++));
object->put("event_flag", command.value(i++));
object->put("event_group_type", "object_event_group");
object->put("event_type", EventType::Object);
map->events["object_event_group"].append(object);
}
}
QList<QStringList> *warps = getLabelMacros(parseAsm(text), warpEventsLabel);
map->events["warp_event_group"].clear();
for (QStringList command : *warps) {
if (command.value(0) == "warp_def") {
Event *warp = new Event;
warp->put("map_name", map->name);
int i = 1;
warp->put("x", command.value(i++));
warp->put("y", command.value(i++));
warp->put("elevation", command.value(i++));
warp->put("destination_warp", command.value(i++));
// Ensure the warp destination map constant is valid before adding it to the warps.
QString mapConstant = command.value(i++);
if (mapConstantsToMapNames->contains(mapConstant)) {
warp->put("destination_map_name", mapConstantsToMapNames->value(mapConstant));
warp->put("event_group_type", "warp_event_group");
warp->put("event_type", EventType::Warp);
map->events["warp_event_group"].append(warp);
} else if (mapConstant == NONE_MAP_CONSTANT) {
warp->put("destination_map_name", NONE_MAP_NAME);
warp->put("event_group_type", "warp_event_group");
warp->put("event_type", EventType::Warp);
map->events["warp_event_group"].append(warp);
} else {
qDebug() << QString("Destination map constant '%1' is invalid for warp").arg(mapConstant);
}
}
}
map->events["heal_event_group"].clear();
for (auto it = flyableMaps.begin(); it != flyableMaps.end(); it++) {
HealLocation loc = *it;
//if TRUE map is flyable / has healing location
if (loc.name == QString(mapNamesToMapConstants->value(map->name)).remove(0,4)) {
Event *heal = new Event;
heal->put("map_name", map->name);
heal->put("x", loc.x);
heal->put("y", loc.y);
heal->put("loc_name", loc.name);
heal->put("index", loc.index);
heal->put("elevation", 3); // TODO: change this?
heal->put("destination_map_name", mapConstantsToMapNames->value(map->name));
heal->put("event_group_type", "heal_event_group");
heal->put("event_type", EventType::HealLocation);
map->events["heal_event_group"].append(heal);
}
}
QList<QStringList> *coords = getLabelMacros(parseAsm(text), coordEventsLabel);
map->events["coord_event_group"].clear();
for (QStringList command : *coords) {
if (command.value(0) == "coord_event") {
Event *coord = new Event;
coord->put("map_name", map->name);
int i = 1;
coord->put("x", command.value(i++));
coord->put("y", command.value(i++));
coord->put("elevation", command.value(i++));
coord->put("script_var", command.value(i++));
coord->put("script_var_value", command.value(i++));
coord->put("script_label", command.value(i++));
coord->put("event_group_type", "coord_event_group");
coord->put("event_type", EventType::CoordScript);
map->events["coord_event_group"].append(coord);
} else if (command.value(0) == "coord_weather_event") {
Event *coord = new Event;
coord->put("map_name", map->name);
int i = 1;
coord->put("x", command.value(i++));
coord->put("y", command.value(i++));
coord->put("elevation", command.value(i++));
coord->put("weather", command.value(i++));
coord->put("event_group_type", "coord_event_group");
coord->put("event_type", EventType::CoordWeather);
map->events["coord_event_group"].append(coord);
}
}
QList<QStringList> *bgs = getLabelMacros(parseAsm(text), bgEventsLabel);
map->events["bg_event_group"].clear();
for (QStringList command : *bgs) {
if (command.value(0) == "bg_event") {
Event *bg = new Event;
bg->put("map_name", map->name);
int i = 1;
bg->put("x", command.value(i++));
bg->put("y", command.value(i++));
bg->put("elevation", command.value(i++));
bg->put("player_facing_direction", command.value(i++));
bg->put("script_label", command.value(i++));
//sign_unknown7
bg->put("event_group_type", "bg_event_group");
bg->put("event_type", EventType::Sign);
map->events["bg_event_group"].append(bg);
} else if (command.value(0) == "bg_hidden_item_event") {
Event *bg = new Event;
bg->put("map_name", map->name);
int i = 1;
bg->put("x", command.value(i++));
bg->put("y", command.value(i++));
bg->put("elevation", command.value(i++));
bg->put("item", command.value(i++));
bg->put("flag", command.value(i++));
bg->put("event_group_type", "bg_event_group");
bg->put("event_type", EventType::HiddenItem);
map->events["bg_event_group"].append(bg);
} else if (command.value(0) == "bg_secret_base_event") {
Event *bg = new Event;
bg->put("map_name", map->name);
int i = 1;
bg->put("x", command.value(i++));
bg->put("y", command.value(i++));
bg->put("elevation", command.value(i++));
bg->put("secret_base_id", command.value(i++));
bg->put("event_group_type", "bg_event_group");
bg->put("event_type", EventType::SecretBase);
map->events["bg_event_group"].append(bg);
}
}
}
void Project::setNewMapEvents(Map *map) {
map->events["object_event_group"].clear();
map->events["warp_event_group"].clear();
map->events["heal_event_group"].clear();
map->events["coord_event_group"].clear();
map->events["bg_event_group"].clear();
}
QStringList Project::readCArray(QString text, QString label) {
QStringList list;
if (label.isNull()) {
return list;
}
QRegExp *re = new QRegExp(QString("\\b%1\\b\\s*\\[?\\s*\\]?\\s*=\\s*\\{([^\\}]*)\\}").arg(label));
int pos = re->indexIn(text);
if (pos != -1) {
QString body = re->cap(1);
body = body.replace(QRegExp("\\s*"), "");
list = body.split(',');
/*
QRegExp *inner = new QRegExp("&?\\b([A-Za-z0-9_\\(\\)]*)\\b,");
int pos = 0;
while ((pos = inner->indexIn(body, pos)) != -1) {
list << inner->cap(1);
pos += inner->matchedLength();
}
*/
}
return list;
}
QString Project::readCIncbin(QString text, QString label) {
QString path;
if (label.isNull()) {
return path;
}
QRegExp *re = new QRegExp(QString(
"\\b%1\\b"
"\\s*\\[?\\s*\\]?\\s*=\\s*"
"INCBIN_[US][0-9][0-9]?"
"\\(\"([^\"]*)\"\\)").arg(label));
int pos = re->indexIn(text);
if (pos != -1) {
path = re->cap(1);
}
return path;
}
QMap<QString, int> Project::readCDefines(QString text, QStringList prefixes) {
ParseUtil parser;
QMap<QString, int> allDefines;
QMap<QString, int> filteredDefines;
QRegularExpression re("#define\\s+(?<defineName>\\w+)[^\\S\\n]+(?<defineValue>.+)");
QRegularExpressionMatchIterator iter = re.globalMatch(text);
while (iter.hasNext()) {
QRegularExpressionMatch match = iter.next();
QString name = match.captured("defineName");
QString expression = match.captured("defineValue");
expression.replace(QRegularExpression("//.*"), "");
int value = parser.evaluateDefine(expression, &allDefines);
allDefines.insert(name, value);
for (QString prefix : prefixes) {
if (name.startsWith(prefix)) {
filteredDefines.insert(name, value);
}
}
}
return filteredDefines;
}