import 'package:firo_runner/holder.dart'; import 'package:firo_runner/main.dart'; import 'package:firo_runner/moving_object.dart'; import 'package:flame/flame.dart'; import 'package:firo_runner/platform.dart'; import 'package:flame/extensions.dart'; class PlatformHolder extends Holder { late Image l1; late Image l2; late Image m1; late Image m2; late Image r1; late Image r2; late Image o1; late Image o2; bool noTopObstaclesForNext = false; bool noMiddleObstaclesForNext = false; int timeSinceLastTopHole = 0; int timeSinceLastBottomHole = 0; @override Future load() async { l1 = await Flame.images.load('platform-left-nowire-frames.png'); l2 = await Flame.images.load('platform-left-wire-frames.png'); m1 = await Flame.images.load('platform-mid-nowire-frames.png'); m2 = await Flame.images.load('platform-mid-wire-frames.png'); r1 = await Flame.images.load('platform-right-nowire-frames.png'); r2 = await Flame.images.load('platform-right-wire-frames.png'); o1 = await Flame.images.load('platform-single-nowire-frames.png'); o2 = await Flame.images.load('platform-single-wire-frames.png'); } @override void setUp() { timeSinceLastTopHole = 0; timeSinceLastBottomHole = 0; super.setUp(); } void removeUnfairObstacles( MyGame gameRef, Platform currentPlatform, int from, int to) { for (int i = from; i <= to; i++) { if (i == 0) { List bugLevel = gameRef.bugHolder.objects[0]; for (MovingObject bug in gameRef.bugHolder.objects[0]) { if (bug.sprite.x >= currentPlatform.sprite.x && bug.sprite.x < currentPlatform.sprite.x + 4 * currentPlatform.sprite.width) { gameRef.bugHolder.remove(bugLevel, bugLevel.indexOf(bug)); } } List wireLevel = gameRef.wireHolder.objects[0]; for (MovingObject wire in gameRef.wireHolder.objects[0]) { if (wire.sprite.x >= currentPlatform.sprite.x && wire.sprite.x < currentPlatform.sprite.x + 4 * currentPlatform.sprite.width) { gameRef.wireHolder.remove(wireLevel, wireLevel.indexOf(wire)); } } } else { int nearestPlatform = getNearestPlatform(i); for (MovingObject platform in objects[nearestPlatform]) { if (platform.sprite.x >= currentPlatform.sprite.x && platform.sprite.x < currentPlatform.sprite.x + 4 * currentPlatform.sprite.width) { (platform as Platform).removeChildrenObjects(); platform.prohibitObstacles = true; } } } } } void generatePlatforms(MyGame gameRef) { while (!generatePlatform(gameRef, 2)) { timeSinceLastTopHole++; } while (!generatePlatform(gameRef, 5)) { timeSinceLastBottomHole++; } int topChance = random.nextInt(timeSinceLastTopHole > 0 ? timeSinceLastTopHole : 1); int bottomChance = random .nextInt(timeSinceLastBottomHole > 0 ? timeSinceLastBottomHole : 1); if (topChance > 50) { removeUnfairObstacles( gameRef, objects[2][objects[2].length - 4] as Platform, 0, 4); // Create an opening in the top. remove(objects[2], objects[2].length - 2); remove(objects[2], objects[2].length - 2); timeSinceLastTopHole = 0; noTopObstaclesForNext = true; } if (bottomChance > 30) { Platform start = objects[5].elementAt(objects[5].length - 10) as Platform; generatePlatform(gameRef, 8, xPosition: start.sprite.position.x); for (int i = 0; i < 8; i++) { generatePlatform(gameRef, 8); } int lastToRemove = objects[5].length - 3; int firstToRemove = objects[5].length - 10; removeUnfairObstacles( gameRef, objects[5][lastToRemove - 1] as Platform, 3, 7); remove(objects[5], lastToRemove); remove(objects[5], lastToRemove); removeUnfairObstacles( gameRef, objects[5][firstToRemove - 1] as Platform, 3, 7); remove(objects[5], firstToRemove); remove(objects[5], firstToRemove); timeSinceLastBottomHole = 0; noMiddleObstaclesForNext = true; } } bool generatePlatform(MyGame gameRef, int level, {double xPosition = 0}) { double xCoordinate = xPosition; if (objects[level].isNotEmpty && xPosition == 0) { xCoordinate = objects[level].last.getRightEnd(); } if (xCoordinate > gameRef.size.x + 2000) { return true; } else { Platform platform = Platform(gameRef); platform.setPosition(xCoordinate, gameRef.blockSize * level); platform.row = level; gameRef.add(platform.sprite); objects[level].add(platform); if (level == 2 && noTopObstaclesForNext) { platform.prohibitObstacles = true; noTopObstaclesForNext = false; } else if (level == 5 && noMiddleObstaclesForNext) { platform.prohibitObstacles = true; noMiddleObstaclesForNext = false; } return false; } } double getFlushX() { MovingObject platform = objects[2].firstWhere((element) => element.sprite.x > 0, orElse: () { return objects[5].firstWhere((element) => element.sprite.x > 0, orElse: () { return objects[8].firstWhere((element) => element.sprite.x > 0); }); }); return platform.sprite.x; } Platform? getPlatformOffScreen(int level) { for (int i = 0; i < objects[level].length; i++) { Platform p = objects[level][i] as Platform; if (p.sprite.x > p.gameRef.size.x) { int chosenIndex = random.nextInt(objects[level].length - i) + i; return objects[level][chosenIndex] as Platform; } } return null; } }