#include "map.h" #include #include #include #include #include Map::Map(QObject *parent) : QObject(parent) { blockdata = new Blockdata; cached_blockdata = new Blockdata; cached_collision = new Blockdata; cached_border = new Blockdata; paint_tile_index = 1; paint_collision = 0; paint_elevation = 3; } void Map::setName(QString mapName) { name = mapName; constantName = mapConstantFromName(mapName); } QString Map::mapConstantFromName(QString mapName) { // Transform map names of the form 'GraniteCave_B1F` into map constants like 'MAP_GRANITE_CAVE_B1F'. QString nameWithUnderscores = mapName.replace(QRegularExpression("([a-z])([A-Z])"), "\\1_\\2"); QString withMapAndUppercase = "MAP_" + nameWithUnderscores.toUpper(); QString constantName = withMapAndUppercase.replace(QRegularExpression("_+"), "_"); // Handle special cases. // SSTidal needs to be SS_TIDAL, rather than SSTIDAL constantName = constantName.replace("SSTIDAL", "SS_TIDAL"); return constantName; } int Map::getWidth() { return width.toInt(nullptr, 0); } int Map::getHeight() { return height.toInt(nullptr, 0); } Tileset* Map::getBlockTileset(int metatile_index) { int primary_size = 0x200;//tileset_primary->metatiles->length(); if (metatile_index < primary_size) { return tileset_primary; } else { return tileset_secondary; } } QList> Map::getBlockPalettes(int metatile_index) { QList> palettes; for (int i = 0; i < 6; i++) { palettes.append(tileset_primary->palettes->at(i)); } for (int i = 6; i < tileset_secondary->palettes->length(); i++) { palettes.append(tileset_secondary->palettes->at(i)); } return palettes; } int Map::getBlockIndex(int index) { int primary_size = 0x200; if (index < primary_size) { return index; } else { return index - primary_size; } } int Map::getSelectedBlockIndex(int index) { if (index < tileset_primary->metatiles->length()) { return index; } else { return 0x200 + (index - tileset_primary->metatiles->length()); } } int Map::getDisplayedBlockIndex(int index) { if (index < tileset_primary->metatiles->length()) { return index; } else { return index - 0x200 + tileset_primary->metatiles->length(); } } QImage Map::getMetatileTile(int tile) { Tileset *tileset = getBlockTileset(tile); int local_index = getBlockIndex(tile); if (!tileset || !tileset->tiles) { return QImage(); } return tileset->tiles->value(local_index, QImage()); } Metatile* Map::getMetatile(int index) { Tileset *tileset = getBlockTileset(index); int local_index = getBlockIndex(index); if (!tileset || !tileset->metatiles) { return NULL; } Metatile *metatile = tileset->metatiles->value(local_index, NULL); return metatile; } QImage Map::getCollisionMetatileImage(Block block) { return getCollisionMetatileImage(block.collision); } QImage Map::getCollisionMetatileImage(int collision) { QImage metatile_image(16, 16, QImage::Format_RGBA8888); QColor color; if (collision == 0) { color.setGreen(0xff); } else if (collision == 1) { color.setRed(0xff); } else if (collision == 2) { color.setBlue(0xff); } else if (collision == 3) { // black } metatile_image.fill(color); return metatile_image; } QImage Map::getElevationMetatileImage(Block block) { return getElevationMetatileImage(block.elevation); } QImage Map::getElevationMetatileImage(int elevation) { QImage metatile_image(16, 16, QImage::Format_RGBA8888); QColor color; if (elevation < 15) { uint saturation = (elevation + 1) * 16 + 15; color.setGreen(saturation); color.setRed(saturation); color.setBlue(saturation); } else { color.setGreen(0xd0); color.setBlue(0xd0); color.setRed(0); } metatile_image.fill(color); //QPainter painter(&metatile_image); //painter.end(); return metatile_image; } QImage Map::getMetatileImage(int tile) { QImage metatile_image(16, 16, QImage::Format_RGBA8888); Metatile* metatile = getMetatile(tile); if (!metatile || !metatile->tiles) { metatile_image.fill(0xffffffff); return metatile_image; } Tileset* blockTileset = getBlockTileset(tile); if (!blockTileset) { metatile_image.fill(0xffffffff); return metatile_image; } QList> palettes = getBlockPalettes(tile); QPainter metatile_painter(&metatile_image); for (int layer = 0; layer < 2; layer++) for (int y = 0; y < 2; y++) for (int x = 0; x < 2; x++) { Tile tile_ = metatile->tiles->value((y * 2) + x + (layer * 4)); QImage tile_image = getMetatileTile(tile_.tile); if (tile_image.isNull()) { // Some metatiles specify tiles that are outside the valid range. // These are treated as completely transparent, so they can be skipped without // being drawn. continue; } // Colorize the metatile tiles with its palette. QList palette = palettes.value(tile_.palette); for (int j = 0; j < palette.length(); j++) { tile_image.setColor(j, palette.value(j)); } // The top layer of the metatile has its last color displayed at transparent. if (layer > 0) { QColor color(tile_image.color(15)); color.setAlpha(0); tile_image.setColor(15, color.rgba()); } QPoint origin = QPoint(x*8, y*8); metatile_painter.drawImage(origin, tile_image.mirrored(tile_.xflip == 1, tile_.yflip == 1)); } metatile_painter.end(); return metatile_image; } bool Map::blockChanged(int i, Blockdata *cache) { if (cache == NULL || cache == nullptr) { return true; } if (blockdata == NULL || blockdata == nullptr) { return true; } if (cache->blocks == NULL || cache->blocks == nullptr) { return true; } if (blockdata->blocks == NULL || blockdata->blocks == nullptr) { return true; } if (cache->blocks->length() <= i) { return true; } if (blockdata->blocks->length() <= i) { return true; } return blockdata->blocks->value(i) != cache->blocks->value(i); } void Map::cacheBorder() { if (cached_border) delete cached_border; cached_border = new Blockdata; if (border && border->blocks) { for (int i = 0; i < border->blocks->length(); i++) { Block block = border->blocks->value(i); cached_border->blocks->append(block); } } } void Map::cacheBlockdata() { if (cached_blockdata) delete cached_blockdata; cached_blockdata = new Blockdata; if (blockdata && blockdata->blocks) { for (int i = 0; i < blockdata->blocks->length(); i++) { Block block = blockdata->blocks->value(i); cached_blockdata->blocks->append(block); } } } void Map::cacheCollision() { if (cached_collision) delete cached_collision; cached_collision = new Blockdata; if (blockdata && blockdata->blocks) { for (int i = 0; i < blockdata->blocks->length(); i++) { Block block = blockdata->blocks->value(i); cached_collision->blocks->append(block); } } } QPixmap Map::renderCollision() { bool changed_any = false; int width_ = getWidth(); int height_ = getHeight(); if ( collision_image.isNull() || collision_image.width() != width_ * 16 || collision_image.height() != height_ * 16 ) { collision_image = QImage(width_ * 16, height_ * 16, QImage::Format_RGBA8888); changed_any = true; } if (!(blockdata && blockdata->blocks && width_ && height_)) { collision_pixmap = collision_pixmap.fromImage(collision_image); return collision_pixmap; } QPainter painter(&collision_image); for (int i = 0; i < blockdata->blocks->length(); i++) { if (cached_collision && !blockChanged(i, cached_collision)) { continue; } changed_any = true; Block block = blockdata->blocks->value(i); QImage metatile_image = getMetatileImage(block.tile); QImage collision_metatile_image = getCollisionMetatileImage(block); QImage elevation_metatile_image = getElevationMetatileImage(block); int map_y = width_ ? i / width_ : 0; int map_x = width_ ? i % width_ : 0; QPoint metatile_origin = QPoint(map_x * 16, map_y * 16); painter.setOpacity(1); painter.drawImage(metatile_origin, metatile_image); painter.save(); if (block.elevation == 15) { painter.setOpacity(0.5); } else if (block.elevation == 0) { painter.setOpacity(0); } else { painter.setOpacity(1);//(block.elevation / 16.0) * 0.8); painter.setCompositionMode(QPainter::CompositionMode_Overlay); } painter.drawImage(metatile_origin, elevation_metatile_image); painter.restore(); painter.save(); if (block.collision == 0) { painter.setOpacity(0.1); } else { painter.setOpacity(0.4); } painter.drawImage(metatile_origin, collision_metatile_image); painter.restore(); painter.save(); painter.setOpacity(0.6); painter.setPen(QColor(255, 255, 255, 192)); painter.setFont(QFont("Helvetica", 8)); painter.drawText(QPoint(metatile_origin.x(), metatile_origin.y() + 8), QString("%1").arg(block.elevation)); painter.restore(); } painter.end(); cacheCollision(); if (changed_any) { collision_pixmap = collision_pixmap.fromImage(collision_image); } return collision_pixmap; } QPixmap Map::render() { bool changed_any = false; int width_ = getWidth(); int height_ = getHeight(); if ( image.isNull() || image.width() != width_ * 16 || image.height() != height_ * 16 ) { image = QImage(width_ * 16, height_ * 16, QImage::Format_RGBA8888); changed_any = true; } if (!(blockdata && blockdata->blocks && width_ && height_)) { pixmap = pixmap.fromImage(image); return pixmap; } QPainter painter(&image); for (int i = 0; i < blockdata->blocks->length(); i++) { if (!blockChanged(i, cached_blockdata)) { continue; } changed_any = true; Block block = blockdata->blocks->value(i); QImage metatile_image = getMetatileImage(block.tile); int map_y = width_ ? i / width_ : 0; int map_x = width_ ? i % width_ : 0; QPoint metatile_origin = QPoint(map_x * 16, map_y * 16); painter.drawImage(metatile_origin, metatile_image); } painter.end(); if (changed_any) { cacheBlockdata(); pixmap = pixmap.fromImage(image); } return pixmap; } QPixmap Map::renderBorder() { bool changed_any = false; int width_ = 2; int height_ = 2; if (border_image.isNull()) { border_image = QImage(width_ * 16, height_ * 16, QImage::Format_RGBA8888); changed_any = true; } if (!(border && border->blocks)) { border_pixmap = border_pixmap.fromImage(border_image); return border_pixmap; } QPainter painter(&border_image); for (int i = 0; i < border->blocks->length(); i++) { if (!blockChanged(i, cached_border)) { continue; } changed_any = true; Block block = border->blocks->value(i); QImage metatile_image = getMetatileImage(block.tile); int map_y = i / width_; int map_x = i % width_; painter.drawImage(QPoint(map_x * 16, map_y * 16), metatile_image); } painter.end(); if (changed_any) { cacheBorder(); border_pixmap = border_pixmap.fromImage(border_image); } return border_pixmap; } QPixmap Map::renderConnection(Connection connection) { render(); int x, y, w, h; if (connection.direction == "up") { x = 0; y = getHeight() - 6; w = getWidth(); h = 6; } else if (connection.direction == "down") { x = 0; y = 0; w = getWidth(); h = 6; } else if (connection.direction == "left") { x = getWidth() - 6; y = 0; w = 6; h = getHeight(); } else if (connection.direction == "right") { x = 0; y = 0; w = 6; h = getHeight(); } else { // this should not happen x = 0; y = 0; w = getWidth(); h = getHeight(); } QImage connection_image = image.copy(x * 16, y * 16, w * 16, h * 16); //connection_image = connection_image.convertToFormat(QImage::Format_Grayscale8); return QPixmap::fromImage(connection_image); } QPixmap Map::renderCollisionMetatiles() { int length_ = 4; int height_ = 1; int width_ = length_ / height_; QImage image(width_ * 16, height_ * 16, QImage::Format_RGBA8888); QPainter painter(&image); for (int i = 0; i < length_; i++) { int y = i / width_; int x = i % width_; QPoint origin(x * 16, y * 16); QImage metatile_image = getCollisionMetatileImage(i); painter.drawImage(origin, metatile_image); } drawSelection(paint_collision, width_, 1, 1, &painter); painter.end(); return QPixmap::fromImage(image); } QPixmap Map::renderElevationMetatiles() { int length_ = 16; int height_ = 2; int width_ = length_ / height_; QImage image(width_ * 16, height_ * 16, QImage::Format_RGBA8888); QPainter painter(&image); for (int i = 0; i < length_; i++) { int y = i / width_; int x = i % width_; QPoint origin(x * 16, y * 16); QImage metatile_image = getElevationMetatileImage(i); painter.drawImage(origin, metatile_image); } drawSelection(paint_elevation, width_, 1, 1, &painter); painter.end(); return QPixmap::fromImage(image); } void Map::drawSelection(int i, int w, int selectionWidth, int selectionHeight, QPainter *painter) { int x = i % w; int y = i / w; painter->save(); QColor penColor = smart_paths_enabled ? QColor(0xff, 0x0, 0xff) : QColor(0xff, 0xff, 0xff); painter->setPen(penColor); int rectWidth = selectionWidth * 16; int rectHeight = selectionHeight * 16; painter->drawRect(x * 16, y * 16, rectWidth - 1, rectHeight -1); painter->setPen(QColor(0, 0, 0)); painter->drawRect(x * 16 - 1, y * 16 - 1, rectWidth + 1, rectHeight + 1); painter->drawRect(x * 16 + 1, y * 16 + 1, rectWidth - 3, rectHeight - 3); painter->restore(); } QPixmap Map::renderMetatiles() { if (!tileset_primary || !tileset_primary->metatiles || !tileset_secondary || !tileset_secondary->metatiles) { return QPixmap(); } int primary_length = tileset_primary->metatiles->length(); int length_ = primary_length + tileset_secondary->metatiles->length(); int width_ = 8; int height_ = length_ / width_; QImage image(width_ * 16, height_ * 16, QImage::Format_RGBA8888); QPainter painter(&image); for (int i = 0; i < length_; i++) { int tile = i; if (i >= primary_length) { tile += 0x200 - primary_length; } QImage metatile_image = getMetatileImage(tile); int map_y = i / width_; int map_x = i % width_; QPoint metatile_origin = QPoint(map_x * 16, map_y * 16); painter.drawImage(metatile_origin, metatile_image); } drawSelection(paint_tile_index, width_, paint_tile_width, paint_tile_height, &painter); painter.end(); return QPixmap::fromImage(image); } Block* Map::getBlock(int x, int y) { if (blockdata && blockdata->blocks) { if (x >= 0 && x < getWidth()) if (y >= 0 && y < getHeight()) { int i = y * getWidth() + x; return new Block(blockdata->blocks->value(i)); } } return NULL; } void Map::_setBlock(int x, int y, Block block) { int i = y * getWidth() + x; if (blockdata && blockdata->blocks) { blockdata->blocks->replace(i, block); } } void Map::_floodFill(int x, int y, uint tile) { QList todo; todo.append(QPoint(x, y)); while (todo.length()) { QPoint point = todo.takeAt(0); x = point.x(); y = point.y(); Block *block = getBlock(x, y); if (block == NULL) { continue; } uint old_tile = block->tile; if (old_tile == tile) { continue; } block->tile = tile; _setBlock(x, y, *block); if ((block = getBlock(x + 1, y)) && block->tile == old_tile) { todo.append(QPoint(x + 1, y)); } if ((block = getBlock(x - 1, y)) && block->tile == old_tile) { todo.append(QPoint(x - 1, y)); } if ((block = getBlock(x, y + 1)) && block->tile == old_tile) { todo.append(QPoint(x, y + 1)); } if ((block = getBlock(x, y - 1)) && block->tile == old_tile) { todo.append(QPoint(x, y - 1)); } } } void Map::_floodFillCollision(int x, int y, uint collision) { QList todo; todo.append(QPoint(x, y)); while (todo.length()) { QPoint point = todo.takeAt(0); x = point.x(); y = point.y(); Block *block = getBlock(x, y); if (block == NULL) { continue; } uint old_coll = block->collision; if (old_coll == collision) { continue; } block->collision = collision; _setBlock(x, y, *block); if ((block = getBlock(x + 1, y)) && block->collision == old_coll) { todo.append(QPoint(x + 1, y)); } if ((block = getBlock(x - 1, y)) && block->collision == old_coll) { todo.append(QPoint(x - 1, y)); } if ((block = getBlock(x, y + 1)) && block->collision == old_coll) { todo.append(QPoint(x, y + 1)); } if ((block = getBlock(x, y - 1)) && block->collision == old_coll) { todo.append(QPoint(x, y - 1)); } } } void Map::_floodFillElevation(int x, int y, uint elevation) { QList todo; todo.append(QPoint(x, y)); while (todo.length()) { QPoint point = todo.takeAt(0); x = point.x(); y = point.y(); Block *block = getBlock(x, y); if (block == NULL) { continue; } uint old_z = block->elevation; if (old_z == elevation) { continue; } Block block_(*block); block_.elevation = elevation; _setBlock(x, y, block_); if ((block = getBlock(x + 1, y)) && block->elevation == old_z) { todo.append(QPoint(x + 1, y)); } if ((block = getBlock(x - 1, y)) && block->elevation == old_z) { todo.append(QPoint(x - 1, y)); } if ((block = getBlock(x, y + 1)) && block->elevation == old_z) { todo.append(QPoint(x, y + 1)); } if ((block = getBlock(x, y - 1)) && block->elevation == old_z) { todo.append(QPoint(x, y - 1)); } } } void Map::_floodFillCollisionElevation(int x, int y, uint collision, uint elevation) { QList todo; todo.append(QPoint(x, y)); while (todo.length()) { QPoint point = todo.takeAt(0); x = point.x(); y = point.y(); Block *block = getBlock(x, y); if (block == NULL) { continue; } uint old_coll = block->collision; uint old_elev = block->elevation; if (old_coll == collision && old_elev == elevation) { continue; } block->collision = collision; block->elevation = elevation; _setBlock(x, y, *block); if ((block = getBlock(x + 1, y)) && block->collision == old_coll && block->elevation == old_elev) { todo.append(QPoint(x + 1, y)); } if ((block = getBlock(x - 1, y)) && block->collision == old_coll && block->elevation == old_elev) { todo.append(QPoint(x - 1, y)); } if ((block = getBlock(x, y + 1)) && block->collision == old_coll && block->elevation == old_elev) { todo.append(QPoint(x, y + 1)); } if ((block = getBlock(x, y - 1)) && block->collision == old_coll && block->elevation == old_elev) { todo.append(QPoint(x, y - 1)); } } } void Map::undo() { if (blockdata) { Blockdata *commit = history.back(); if (commit != NULL) { blockdata->copyFrom(commit); emit mapChanged(this); } } } void Map::redo() { if (blockdata) { Blockdata *commit = history.next(); if (commit != NULL) { blockdata->copyFrom(commit); emit mapChanged(this); } } } void Map::commit() { if (blockdata) { if (!blockdata->equals(history.current())) { Blockdata* commit = blockdata->copy(); history.push(commit); emit mapChanged(this); } } } void Map::setBlock(int x, int y, Block block) { Block *old_block = getBlock(x, y); if (old_block && (*old_block) != block) { _setBlock(x, y, block); commit(); } } void Map::floodFill(int x, int y, uint tile) { Block *block = getBlock(x, y); if (block && block->tile != tile) { _floodFill(x, y, tile); commit(); } } void Map::floodFillCollision(int x, int y, uint collision) { Block *block = getBlock(x, y); if (block && block->collision != collision) { _floodFillCollision(x, y, collision); commit(); } } void Map::floodFillElevation(int x, int y, uint elevation) { Block *block = getBlock(x, y); if (block && block->elevation != elevation) { _floodFillElevation(x, y, elevation); commit(); } } void Map::floodFillCollisionElevation(int x, int y, uint collision, uint elevation) { Block *block = getBlock(x, y); if (block && (block->collision != collision || block->elevation != elevation)) { _floodFillCollisionElevation(x, y, collision, elevation); commit(); } } QList Map::getAllEvents() { QList all; for (QList list : events.values()) { all += list; } return all; } QList Map::getEventsByType(QString type) { return events.value(type); } void Map::removeEvent(Event *event) { for (QString key : events.keys()) { events[key].removeAll(event); } } void Map::addEvent(Event *event) { events[event->get("event_type")].append(event); } bool Map::hasUnsavedChanges() { return !history.isSaved() || !isPersistedToFile; } void Map::hoveredTileChanged(int x, int y, int block) { emit statusBarMessage(QString("X: %1, Y: %2, Block: 0x%3") .arg(x) .arg(y) .arg(QString("%1").arg(block, 3, 16, QChar('0')).toUpper())); } void Map::clearHoveredTile() { emit statusBarMessage(QString("")); } void Map::hoveredMetatileChanged(int blockIndex) { int tile = getSelectedBlockIndex(blockIndex); emit statusBarMessage(QString("Block: 0x%1") .arg(QString("%1").arg(tile, 3, 16, QChar('0')).toUpper())); } void Map::clearHoveredMetatile() { emit statusBarMessage(QString("")); } void Map::hoveredCollisionTileChanged(int collision) { emit statusBarMessage(QString("Collision: %1").arg(collision)); } void Map::clearHoveredCollisionTile() { emit statusBarMessage(QString("")); } void Map::hoveredElevationTileChanged(int elevation) { emit statusBarMessage(QString("Elevation: %1").arg(elevation)); } void Map::clearHoveredElevationTile() { emit statusBarMessage(QString("")); }