const i18n = require('LanguageData');
i18n.init(window.language); // languageID should be equal to the one we input in New Language ID input field

const OnlineMap = require('./Map');

cc.Class({
  extends: OnlineMap,

  onDestroy() {
    console.warn("+++++++ Map onDestroy()");
  },

  onLoad() {
    const self = this;
    window.mapIns = self;
    self.showCriticalCoordinateLabels = false;

    const mapNode = self.node;
    const canvasNode = mapNode.parent;

    self.mainCameraNode = self.canvasNode.getChildByName("Main Camera");
    self.mainCamera = self.mainCameraNode.getComponent(cc.Camera);
    for (let child of self.mainCameraNode.children) {
      child.setScale(1 / self.mainCamera.zoomRatio);
    }
    self.widgetsAboveAllNode = self.mainCameraNode.getChildByName("WidgetsAboveAll");
    self.mainCameraNode.setPosition(cc.v2());

    /** Init required prefab ended. */

    self.inputDelayFrames = 8;
    self.inputScaleFrames = 2;
    self.inputFrameUpsyncDelayTolerance = 2;
    self.collisionMinStep = 8;

    self.renderCacheSize = 1024;
    self.serverFps = 60;
    self.rollbackEstimatedDt = 0.016667;
    self.rollbackEstimatedDtMillis = 16.667;
    self.rollbackEstimatedDtNanos = 16666666;
    self.tooFastDtIntervalMillis = 0.5 * self.rollbackEstimatedDtMillis;

    self.worldToVirtualGridRatio = 1000;
    self.virtualGridToWorldRatio = 1.0 / self.worldToVirtualGridRatio;
    self.meleeSkillConfig = {
      1: {
        // for offender
        startupFrames: 10,
        activeFrames: 20,
        recoveryFrames: 34, // usually but not always "startupFrames+activeFrames", I hereby set it to be 1 frame more than the actual animation to avoid critical transition, i.e. when the animation is 1 frame from ending but "rdfPlayer.framesToRecover" is already counted 0 and the player triggers an other same attack, making an effective bullet trigger but no animation is played due to same animName is still playing
        recoveryFramesOnBlock: 34,
        recoveryFramesOnHit: 34,
        hitboxOffset: 12.0, // should be about the radius of the PlayerCollider 
        // for defender
        hitStunFrames: 18,
        blockStunFrames: 9,
        pushback: 8.0,
        releaseTriggerType: 1, // 1: rising-edge, 2: falling-edge  
        damage: 5,
        hitboxSizeX: 24.0,
        hitboxSizeY: 32.0,
        selfMoveforwardX: 0,
        selfMoveforwardY: 0,
      }
    };

    /* 
    [WARNING] As when a character is standing on a barrier, if not carefully curated there MIGHT BE a bouncing sequence of "[(inAir -> dropIntoBarrier ->), (notInAir -> pushedOutOfBarrier ->)], [(inAir -> ..."

    Moreover, "snapIntoPlatformOverlap" should be small enough such that the walking "velX" or jumping initial "velY" can escape from it by 1 renderFrame (when jumping is triggered, the character is waived from snappig for 1 renderFrame).
    */
    self.snapIntoPlatformOverlap = 0.1;
    self.snapIntoPlatformThreshold = 0.5; // a platform must be "horizontal enough" for a character to "stand on"
    self.jumpingInitVelY = 7 * self.worldToVirtualGridRatio; // unit: (virtual grid length/renderFrame)
    [self.gravityX, self.gravityY] = [0, -0.5 * self.worldToVirtualGridRatio]; // unit: (virtual grid length/renderFrame^2)

    const tiledMapIns = self.node.getComponent(cc.TiledMap);

    const fullPathOfTmxFile = cc.js.formatStr("map/%s/map", "dungeon");
    cc.loader.loadRes(fullPathOfTmxFile, cc.TiledMapAsset, (err, tmxAsset) => {
      if (null != err) {
        console.error(err);
        return;
      }

      tiledMapIns.tmxAsset = null;
      mapNode.removeAllChildren();

      if (self.showCriticalCoordinateLabels) {
        const drawer = new cc.Node();
        drawer.setPosition(cc.v2(0, 0))
        safelyAddChild(self.node, drawer);
        setLocalZOrder(drawer, 999);
        const g = drawer.addComponent(cc.Graphics);
        g.lineWidth = 2;
        self.g = g;
      }

      tiledMapIns.tmxAsset = tmxAsset;
      const newMapSize = tiledMapIns.getMapSize();
      const newTileSize = tiledMapIns.getTileSize();
      self.node.setContentSize(newMapSize.width * newTileSize.width, newMapSize.height * newTileSize.height);
      self.node.setPosition(cc.v2(0, 0));

      self.stageDiscreteW = newMapSize.width;
      self.stageDiscreteH = newMapSize.height;
      self.stageTileW = newTileSize.width;
      self.stageTileH = newTileSize.height;

      self._resetCurrentMatch();
      let barrierIdCounter = 0;
      const boundaryObjs = tileCollisionManager.extractBoundaryObjects(self.node);
      for (let boundaryObj of boundaryObjs.barriers) {
        const gopkgsBoundaryAnchor = gopkgs.NewVec2DJs(boundaryObj.anchor.x, boundaryObj.anchor.y);
        const gopkgsBoundaryPts = Array.from(boundaryObj, p => {
          return gopkgs.NewVec2DJs(p.x, p.y);
        });
        const gopkgsBoundary = gopkgs.NewPolygon2DJs(gopkgsBoundaryAnchor, gopkgsBoundaryPts);
        const gopkgsBarrier = gopkgs.NewBarrierJs(gopkgsBoundary);

        const newBarrierCollider = gopkgs.GenerateConvexPolygonColliderJs(gopkgsBoundary, self.spaceOffsetX, self.spaceOffsetY, gopkgsBarrier, "Barrier");
        self.gopkgsCollisionSys.Add(newBarrierCollider);

        if (false && self.showCriticalCoordinateLabels) {
          for (let i = 0; i < boundaryObj.length; ++i) {
            const barrierVertLabelNode = new cc.Node();
            switch (i % 4) {
              case 0:
                barrierVertLabelNode.color = cc.Color.RED;
                break;
              case 1:
                barrierVertLabelNode.color = cc.Color.GRAY;
                break;
              case 2:
                barrierVertLabelNode.color = cc.Color.BLACK;
                break;
              default:
                barrierVertLabelNode.color = cc.Color.MAGENTA;
                break;
            }
            const wx = boundaryObj.anchor.x + boundaryObj[i].x,
              wy = boundaryObj.anchor.y + boundaryObj[i].y;
            barrierVertLabelNode.setPosition(cc.v2(wx, wy));
            const barrierVertLabel = barrierVertLabelNode.addComponent(cc.Label);
            barrierVertLabel.fontSize = 12;
            barrierVertLabel.lineHeight = barrierVertLabel.fontSize + 1;
            barrierVertLabel.string = `(${wx.toFixed(1)}, ${wy.toFixed(1)})`;
            safelyAddChild(self.node, barrierVertLabelNode);
            setLocalZOrder(barrierVertLabelNode, 5);

            barrierVertLabelNode.active = true;
          }

        }
        // console.log("Created barrier: ", newBarrierCollider);
        ++barrierIdCounter;
        const collisionBarrierIndex = (self.collisionBarrierIndexPrefix + barrierIdCounter);
        self.gopkgsCollisionSysMap[collisionBarrierIndex] = newBarrierCollider;
      }

      const startRdf = window.pb.protos.RoomDownsyncFrame.create({
        id: window.MAGIC_ROOM_DOWNSYNC_FRAME_ID.BATTLE_START,
        playersArr: [
          window.pb.protos.PlayerDownsync.create({
            id: 10,
            joinIndex: 1,
            virtualGridX: boundaryObjs.playerStartingPositions[0].x * self.worldToVirtualGridRatio,
            virtualGridY: boundaryObjs.playerStartingPositions[0].y * self.worldToVirtualGridRatio,
            speed: 1 * self.worldToVirtualGridRatio,
            colliderRadius: 12,
            characterState: window.ATK_CHARACTER_STATE.InAirIdle1[0],
            framesToRecover: 0,
            dirX: 0,
            dirY: 0,
            velX: 0,
            velY: 0,
            inAir: true,
          }),
          window.pb.protos.PlayerDownsync.create({
            id: 11,
            joinIndex: 2,
            virtualGridX: boundaryObjs.playerStartingPositions[1].x * self.worldToVirtualGridRatio,
            virtualGridY: boundaryObjs.playerStartingPositions[1].y * self.worldToVirtualGridRatio,
            speed: 1 * self.worldToVirtualGridRatio,
            colliderRadius: 12,
            characterState: window.ATK_CHARACTER_STATE.InAirIdle1[0],
            framesToRecover: 0,
            dirX: 0,
            dirY: 0,
            velX: 0,
            velY: 0,
            inAir: true,
          }),
        ]
      });

      self.selfPlayerInfo = {
        Id: 11,
        JoinIndex: 2,
        // For compatibility
        id: 11,
        joinIndex: 2,
      };
      self.onRoomDownsyncFrame(startRdf);

      self.battleState = ALL_BATTLE_STATES.IN_BATTLE;
    });

  },

  update(dt) {
    const self = this;
    if (ALL_BATTLE_STATES.IN_BATTLE == self.battleState) {
      const elapsedMillisSinceLastFrameIdTriggered = performance.now() - self.lastRenderFrameIdTriggeredAt;
      if (elapsedMillisSinceLastFrameIdTriggered < self.tooFastDtIntervalMillis) {
        // [WARNING] We should avoid a frontend ticking too fast to prevent cheating, as well as ticking too slow to cause a "resync avalanche" that impacts user experience!
        // console.debug("Avoiding too fast frame@renderFrameId=", self.renderFrameId, ": elapsedMillisSinceLastFrameIdTriggered=", elapsedMillisSinceLastFrameIdTriggered);
        return;
      }
      try {
        let st = performance.now();
        let prevSelfInput = null,
          currSelfInput = null;
        const noDelayInputFrameId = self._convertToInputFrameId(self.renderFrameId, 0); // It's important that "inputDelayFrames == 0" here 
        if (self.shouldGenerateInputFrameUpsync(self.renderFrameId)) {
          const prevAndCurrInputs = self.getOrPrefabInputFrameUpsync(noDelayInputFrameId);
          prevSelfInput = prevAndCurrInputs[0];
          currSelfInput = prevAndCurrInputs[1];
        }

        const [prevRdf, rdf] = self.rollbackAndChase(self.renderFrameId, self.renderFrameId + 1, self.gopkgsCollisionSys, self.gopkgsCollisionSysMap, false);
        self.applyRoomDownsyncFrameDynamics(rdf, prevRdf);
        self.showDebugBoundaries(rdf);
        ++self.renderFrameId;
        self.lastRenderFrameIdTriggeredAt = performance.now();
        let t3 = performance.now();
      } catch (err) {
        console.error("Error during Map.update", err);
      }
    }
  },

});