#include "TileMapTest.h" #include "../testResource.h" enum { kTagTileMap = 1, }; Layer* nextTileMapAction(); Layer* backTileMapAction(); Layer* restartTileMapAction(); //------------------------------------------------------------------ // // TileMapTest // //------------------------------------------------------------------ TileMapTest::TileMapTest() { auto map = TileMapAtlas::create(s_TilesPng, s_LevelMapTga, 16, 16); // Convert it to "alias" (GL_LINEAR filtering) map->getTexture()->setAntiAliasTexParameters(); Size CC_UNUSED s = map->getContentSize(); CCLOG("ContentSize: %f, %f", s.width,s.height); // If you are not going to use the Map, you can free it now // NEW since v0.7 map->releaseMap(); addChild(map, 0, kTagTileMap); map->setAnchorPoint( Point(0, 0.5f) ); auto scale = ScaleBy::create(4, 0.8f); auto scaleBack = scale->reverse(); auto seq = Sequence::create(scale, scaleBack, NULL); map->runAction(RepeatForever::create(seq)); } std::string TileMapTest::title() { return "TileMapAtlas"; } //------------------------------------------------------------------ // // TileMapEditTest // //------------------------------------------------------------------ TileMapEditTest::TileMapEditTest() { auto map = TileMapAtlas::create(s_TilesPng, s_LevelMapTga, 16, 16); // Create an Aliased Atlas map->getTexture()->setAliasTexParameters(); Size CC_UNUSED s = map->getContentSize(); CCLOG("ContentSize: %f, %f", s.width,s.height); // If you are not going to use the Map, you can free it now // [tilemap releaseMap); // And if you are going to use, it you can access the data with: schedule(schedule_selector(TileMapEditTest::updateMap), 0.2f); addChild(map, 0, kTagTileMap); map->setAnchorPoint( Point(0, 0) ); map->setPosition( Point(-20,-200) ); } void TileMapEditTest::updateMap(float dt) { // IMPORTANT // The only limitation is that you cannot change an empty, or assign an empty tile to a tile // The value 0 not rendered so don't assign or change a tile with value 0 auto tilemap = (TileMapAtlas*) getChildByTag(kTagTileMap); // // For example you can iterate over all the tiles // using this code, but try to avoid the iteration // over all your tiles in every frame. It's very expensive // for(int x=0; x < tilemap.tgaInfo->width; x++) { // for(int y=0; y < tilemap.tgaInfo->height; y++) { // Color3B c =[tilemap tileAt:Size(x,y)); // if( c.r != 0 ) { // ////----CCLOG("%d,%d = %d", x,y,c.r); // } // } // } // NEW since v0.7 Color3B c = tilemap->getTileAt(Point(13,21)); c.r++; c.r %= 50; if( c.r==0) c.r=1; // NEW since v0.7 tilemap->setTile(c, Point(13,21) ); } std::string TileMapEditTest::title() { return "Editable TileMapAtlas"; } //------------------------------------------------------------------ // // TMXOrthoTest // //------------------------------------------------------------------ TMXOrthoTest::TMXOrthoTest() { // // Test orthogonal with 3d camera and anti-alias textures // // it should not flicker. No artifacts should appear // //auto color = LayerColor::create( Color4B(64,64,64,255) ); //addChild(color, -1); auto map = TMXTiledMap::create("TileMaps/orthogonal-test2.tmx"); addChild(map, 0, kTagTileMap); Size CC_UNUSED s = map->getContentSize(); CCLOG("ContentSize: %f, %f", s.width,s.height); auto pChildrenArray = map->getChildren(); SpriteBatchNode* child = NULL; Object* pObject = NULL; CCARRAY_FOREACH(pChildrenArray, pObject) { child = static_cast(pObject); if(!child) break; child->getTexture()->setAntiAliasTexParameters(); } float x, y, z; map->getCamera()->getEyeXYZ(&x, &y, &z); map->getCamera()->setEyeXYZ(x-200, y, z+300); } void TMXOrthoTest::onEnter() { TileDemo::onEnter(); Director::getInstance()->setProjection(Director::Projection::_3D); } void TMXOrthoTest::onExit() { Director::getInstance()->setProjection(Director::Projection::_2D); TileDemo::onExit(); } std::string TMXOrthoTest::title() { return "TMX Orthogonal test"; } //------------------------------------------------------------------ // // TMXOrthoTest2 // //------------------------------------------------------------------ TMXOrthoTest2::TMXOrthoTest2() { auto map = TMXTiledMap::create("TileMaps/orthogonal-test1.tmx"); addChild(map, 0, kTagTileMap); Size CC_UNUSED s = map->getContentSize(); CCLOG("ContentSize: %f, %f", s.width,s.height); auto pChildrenArray = map->getChildren(); SpriteBatchNode* child = NULL; Object* pObject = NULL; CCARRAY_FOREACH(pChildrenArray, pObject) { child = static_cast(pObject); if(!child) break; child->getTexture()->setAntiAliasTexParameters(); } map->runAction( ScaleBy::create(2, 0.5f) ) ; } std::string TMXOrthoTest2::title() { return "TMX Ortho test2"; } //------------------------------------------------------------------ // // TMXOrthoTest3 // //------------------------------------------------------------------ TMXOrthoTest3::TMXOrthoTest3() { auto map = TMXTiledMap::create("TileMaps/orthogonal-test3.tmx"); addChild(map, 0, kTagTileMap); Size CC_UNUSED s = map->getContentSize(); CCLOG("ContentSize: %f, %f", s.width,s.height); auto pChildrenArray = map->getChildren(); SpriteBatchNode* child = NULL; Object* pObject = NULL; CCARRAY_FOREACH(pChildrenArray, pObject) { child = static_cast(pObject); if(!child) break; child->getTexture()->setAntiAliasTexParameters(); } map->setScale(0.2f); map->setAnchorPoint( Point(0.5f, 0.5f) ); } std::string TMXOrthoTest3::title() { return "TMX anchorPoint test"; } //------------------------------------------------------------------ // // TMXOrthoTest4 // //------------------------------------------------------------------ TMXOrthoTest4::TMXOrthoTest4() { auto map = TMXTiledMap::create("TileMaps/orthogonal-test4.tmx"); addChild(map, 0, kTagTileMap); Size CC_UNUSED s1 = map->getContentSize(); CCLOG("ContentSize: %f, %f", s1.width,s1.height); auto pChildrenArray = map->getChildren(); SpriteBatchNode* child = NULL; Object* pObject = NULL; CCARRAY_FOREACH(pChildrenArray, pObject) { child = static_cast(pObject); if(!child) break; child->getTexture()->setAntiAliasTexParameters(); } map->setAnchorPoint(Point(0, 0)); auto layer = map->getLayer("Layer 0"); auto s = layer->getLayerSize(); Sprite* sprite; sprite = layer->getTileAt(Point(0,0)); sprite->setScale(2); sprite = layer->getTileAt(Point(s.width-1,0)); sprite->setScale(2); sprite = layer->getTileAt(Point(0,s.height-1)); sprite->setScale(2); sprite = layer->getTileAt(Point(s.width-1,s.height-1)); sprite->setScale(2); schedule( schedule_selector(TMXOrthoTest4::removeSprite), 2 ); } void TMXOrthoTest4::removeSprite(float dt) { unschedule(schedule_selector(TMXOrthoTest4::removeSprite)); auto map = static_cast( getChildByTag(kTagTileMap) ); auto layer = map->getLayer("Layer 0"); auto s = layer->getLayerSize(); auto sprite = layer->getTileAt( Point(s.width-1,0) ); layer->removeChild(sprite, true); } std::string TMXOrthoTest4::title() { return "TMX width/height test"; } //------------------------------------------------------------------ // // TMXReadWriteTest // //------------------------------------------------------------------ enum { SID_UPDATECOL = 100, SID_REPAINTWITHGID, SID_REMOVETILES }; TMXReadWriteTest::TMXReadWriteTest() { _gid = 0; auto map = TMXTiledMap::create("TileMaps/orthogonal-test2.tmx"); addChild(map, 0, kTagTileMap); Size CC_UNUSED s = map->getContentSize(); CCLOG("ContentSize: %f, %f", s.width,s.height); auto layer = map->getLayer("Layer 0"); layer->getTexture()->setAntiAliasTexParameters(); map->setScale( 1 ); auto tile0 = layer->getTileAt(Point(1,63)); auto tile1 = layer->getTileAt(Point(2,63)); auto tile2 = layer->getTileAt(Point(3,62));//Point(1,62)); auto tile3 = layer->getTileAt(Point(2,62)); tile0->setAnchorPoint( Point(0.5f, 0.5f) ); tile1->setAnchorPoint( Point(0.5f, 0.5f) ); tile2->setAnchorPoint( Point(0.5f, 0.5f) ); tile3->setAnchorPoint( Point(0.5f, 0.5f) ); auto move = MoveBy::create(0.5f, Point(0,160)); auto rotate = RotateBy::create(2, 360); auto scale = ScaleBy::create(2, 5); auto opacity = FadeOut::create(2); auto fadein = FadeIn::create(2); auto scaleback = ScaleTo::create(1, 1); auto finish = CallFuncN::create(CC_CALLBACK_1(TMXReadWriteTest::removeSprite, this)); auto seq0 = Sequence::create(move, rotate, scale, opacity, fadein, scaleback, finish, NULL); auto seq1 = seq0->clone(); auto seq2 = seq0->clone(); auto seq3 = seq0->clone(); tile0->runAction(seq0); tile1->runAction(seq1); tile2->runAction(seq2); tile3->runAction(seq3); _gid = layer->getTileGIDAt(Point(0,63)); ////----CCLOG("Tile GID at:(0,63) is: %d", _gid); schedule(schedule_selector(TMXReadWriteTest::updateCol), 2.0f); schedule(schedule_selector(TMXReadWriteTest::repaintWithGID), 2.05f); schedule(schedule_selector(TMXReadWriteTest::removeTiles), 1.0f); ////----CCLOG("++++atlas quantity: %d", layer->textureAtlas()->getTotalQuads()); ////----CCLOG("++++children: %d", layer->getChildren()->count() ); _gid2 = 0; } void TMXReadWriteTest::removeSprite(Node* sender) { ////----CCLOG("removing tile: %x", sender); auto p = ((Node*)sender)->getParent(); if (p) { p->removeChild((Node*)sender, true); } //////----CCLOG("atlas quantity: %d", p->textureAtlas()->totalQuads()); } void TMXReadWriteTest::updateCol(float dt) { auto map = (TMXTiledMap*)getChildByTag(kTagTileMap); auto layer = (TMXLayer*)map->getChildByTag(0); ////----CCLOG("++++atlas quantity: %d", layer->textureAtlas()->getTotalQuads()); ////----CCLOG("++++children: %d", layer->getChildren()->count() ); auto s = layer->getLayerSize(); for( int y=0; y< s.height; y++ ) { layer->setTileGID(_gid2, Point((float)3, (float)y)); } _gid2 = (_gid2 + 1) % 80; } void TMXReadWriteTest::repaintWithGID(float dt) { // unschedule:_cmd); auto map = (TMXTiledMap*)getChildByTag(kTagTileMap); auto layer = (TMXLayer*)map->getChildByTag(0); auto s = layer->getLayerSize(); for( int x=0; xgetTileGIDAt( Point((float)x, (float)y) ); layer->setTileGID(tmpgid+1, Point((float)x, (float)y)); } } void TMXReadWriteTest::removeTiles(float dt) { unschedule(schedule_selector(TMXReadWriteTest::removeTiles)); auto map = (TMXTiledMap*)getChildByTag(kTagTileMap); auto layer = (TMXLayer*)map->getChildByTag(0); auto s = layer->getLayerSize(); for( int y=0; y< s.height; y++ ) { layer->removeTileAt( Point(5.0, (float)y) ); } } std::string TMXReadWriteTest::title() { return "TMX Read/Write test"; } //------------------------------------------------------------------ // // TMXHexTest // //------------------------------------------------------------------ TMXHexTest::TMXHexTest() { auto color = LayerColor::create( Color4B(64,64,64,255) ); addChild(color, -1); auto map = TMXTiledMap::create("TileMaps/hexa-test.tmx"); addChild(map, 0, kTagTileMap); Size CC_UNUSED s = map->getContentSize(); CCLOG("ContentSize: %f, %f", s.width,s.height); } std::string TMXHexTest::title() { return "TMX Hex tes"; } //------------------------------------------------------------------ // // TMXIsoTest // //------------------------------------------------------------------ TMXIsoTest::TMXIsoTest() { auto color = LayerColor::create( Color4B(64,64,64,255) ); addChild(color, -1); auto map = TMXTiledMap::create("TileMaps/iso-test.tmx"); addChild(map, 0, kTagTileMap); // move map to the center of the screen auto ms = map->getMapSize(); auto ts = map->getTileSize(); map->runAction( MoveTo::create(1.0f, Point( -ms.width * ts.width/2, -ms.height * ts.height/2 )) ); } std::string TMXIsoTest::title() { return "TMX Isometric test 0"; } //------------------------------------------------------------------ // // TMXIsoTest1 // //------------------------------------------------------------------ TMXIsoTest1::TMXIsoTest1() { auto color = LayerColor::create( Color4B(64,64,64,255) ); addChild(color, -1); auto map = TMXTiledMap::create("TileMaps/iso-test1.tmx"); addChild(map, 0, kTagTileMap); Size CC_UNUSED s = map->getContentSize(); CCLOG("ContentSize: %f, %f", s.width,s.height); map->setAnchorPoint(Point(0.5f, 0.5f)); } std::string TMXIsoTest1::title() { return "TMX Isometric test + anchorPoint"; } //------------------------------------------------------------------ // // TMXIsoTest2 // //------------------------------------------------------------------ TMXIsoTest2::TMXIsoTest2() { auto color = LayerColor::create( Color4B(64,64,64,255) ); addChild(color, -1); auto map = TMXTiledMap::create("TileMaps/iso-test2.tmx"); addChild(map, 0, kTagTileMap); Size CC_UNUSED s = map->getContentSize(); CCLOG("ContentSize: %f, %f", s.width,s.height); // move map to the center of the screen auto ms = map->getMapSize(); auto ts = map->getTileSize(); map->runAction( MoveTo::create(1.0f, Point( -ms.width * ts.width/2, -ms.height * ts.height/2 ) )); } std::string TMXIsoTest2::title() { return "TMX Isometric test 2"; } //------------------------------------------------------------------ // // TMXUncompressedTest // //------------------------------------------------------------------ TMXUncompressedTest::TMXUncompressedTest() { auto color = LayerColor::create( Color4B(64,64,64,255) ); addChild(color, -1); auto map = TMXTiledMap::create("TileMaps/iso-test2-uncompressed.tmx"); addChild(map, 0, kTagTileMap); Size CC_UNUSED s = map->getContentSize(); CCLOG("ContentSize: %f, %f", s.width,s.height); // move map to the center of the screen auto ms = map->getMapSize(); auto ts = map->getTileSize(); map->runAction(MoveTo::create(1.0f, Point( -ms.width * ts.width/2, -ms.height * ts.height/2 ) )); // testing release map auto pChildrenArray = map->getChildren(); TMXLayer* layer; Object* pObject = NULL; CCARRAY_FOREACH(pChildrenArray, pObject) { layer= static_cast(pObject); if(!layer) break; layer->releaseMap(); } } std::string TMXUncompressedTest::title() { return "TMX Uncompressed test"; } //------------------------------------------------------------------ // // TMXTilesetTest // //------------------------------------------------------------------ TMXTilesetTest::TMXTilesetTest() { auto map = TMXTiledMap::create("TileMaps/orthogonal-test5.tmx"); addChild(map, 0, kTagTileMap); Size CC_UNUSED s = map->getContentSize(); CCLOG("ContentSize: %f, %f", s.width,s.height); TMXLayer* layer; layer = map->getLayer("Layer 0"); layer->getTexture()->setAntiAliasTexParameters(); layer = map->getLayer("Layer 1"); layer->getTexture()->setAntiAliasTexParameters(); layer = map->getLayer("Layer 2"); layer->getTexture()->setAntiAliasTexParameters(); } std::string TMXTilesetTest::title() { return "TMX Tileset test"; } //------------------------------------------------------------------ // // TMXOrthoObjectsTest // //------------------------------------------------------------------ TMXOrthoObjectsTest::TMXOrthoObjectsTest() { auto map = TMXTiledMap::create("TileMaps/ortho-objects.tmx"); addChild(map, -1, kTagTileMap); Size CC_UNUSED s = map->getContentSize(); CCLOG("ContentSize: %f, %f", s.width,s.height); ////----CCLOG("----> Iterating over all the group objets"); auto group = map->getObjectGroup("Object Group 1"); auto objects = group->getObjects(); Dictionary* dict = NULL; Object* pObj = NULL; CCARRAY_FOREACH(objects, pObj) { dict = static_cast(pObj); if(!dict) break; ////----CCLOG("object: %x", dict); } ////----CCLOG("----> Fetching 1 object by name"); // auto platform = group->objectNamed("platform"); ////----CCLOG("platform: %x", platform); } void TMXOrthoObjectsTest::draw() { auto map = static_cast( getChildByTag(kTagTileMap) ); auto group = map->getObjectGroup("Object Group 1"); auto objects = group->getObjects(); Dictionary* dict = NULL; Object* pObj = NULL; CCARRAY_FOREACH(objects, pObj) { dict = static_cast(pObj); if(!dict) break; const char* key = "x"; int x = ((String*)dict->objectForKey(key))->intValue(); key = "y"; int y = ((String*)dict->objectForKey(key))->intValue();//dynamic_cast(dict->objectForKey("y"))->getNumber(); key = "width"; int width = ((String*)dict->objectForKey(key))->intValue();//dynamic_cast(dict->objectForKey("width"))->getNumber(); key = "height"; int height = ((String*)dict->objectForKey(key))->intValue();//dynamic_cast(dict->objectForKey("height"))->getNumber(); glLineWidth(3); DrawPrimitives::drawLine( Point((float)x, (float)y), Point((float)(x+width), (float)y) ); DrawPrimitives::drawLine( Point((float)(x+width), (float)y), Point((float)(x+width), (float)(y+height)) ); DrawPrimitives::drawLine( Point((float)(x+width), (float)(y+height)), Point((float)x, (float)(y+height)) ); DrawPrimitives::drawLine( Point((float)x, (float)(y+height)), Point((float)x, (float)y) ); glLineWidth(1); } } std::string TMXOrthoObjectsTest::title() { return "TMX Ortho object test"; } std::string TMXOrthoObjectsTest::subtitle() { return "You should see a white box around the 3 platforms"; } //------------------------------------------------------------------ // // TMXIsoObjectsTest // //------------------------------------------------------------------ TMXIsoObjectsTest::TMXIsoObjectsTest() { auto map = TMXTiledMap::create("TileMaps/iso-test-objectgroup.tmx"); addChild(map, -1, kTagTileMap); Size CC_UNUSED s = map->getContentSize(); CCLOG("ContentSize: %f, %f", s.width,s.height); auto group = map->getObjectGroup("Object Group 1"); //auto objects = group->objects(); auto objects = group->getObjects(); //UxMutableDictionary* dict; Dictionary* dict; Object* pObj = NULL; CCARRAY_FOREACH(objects, pObj) { dict = static_cast(pObj); if(!dict) break; ////----CCLOG("object: %x", dict); } } void TMXIsoObjectsTest::draw() { auto map = (TMXTiledMap*) getChildByTag(kTagTileMap); auto group = map->getObjectGroup("Object Group 1"); auto objects = group->getObjects(); Dictionary* dict; Object* pObj = NULL; CCARRAY_FOREACH(objects, pObj) { dict = static_cast(pObj); if(!dict) break; const char* key = "x"; int x = static_cast(dict->objectForKey(key))->intValue(); key = "y"; int y = static_cast(dict->objectForKey(key))->intValue(); key = "width"; int width = static_cast(dict->objectForKey(key))->intValue(); key = "height"; int height = static_cast(dict->objectForKey(key))->intValue(); glLineWidth(3); DrawPrimitives::drawLine( Point(x,y), Point(x+width,y) ); DrawPrimitives::drawLine( Point(x+width,y), Point(x+width,y+height) ); DrawPrimitives::drawLine( Point(x+width,y+height), Point(x,y+height) ); DrawPrimitives::drawLine( Point(x,y+height), Point(x,y) ); glLineWidth(1); } } std::string TMXIsoObjectsTest::title() { return "TMX Iso object test"; } std::string TMXIsoObjectsTest::subtitle() { return "You need to parse them manually. See bug #810"; } //------------------------------------------------------------------ // // TMXResizeTest // //------------------------------------------------------------------ TMXResizeTest::TMXResizeTest() { auto map = TMXTiledMap::create("TileMaps/orthogonal-test5.tmx"); addChild(map, 0, kTagTileMap); Size CC_UNUSED s = map->getContentSize(); CCLOG("ContentSize: %f, %f", s.width,s.height); TMXLayer* layer; layer = map->getLayer("Layer 0"); auto ls = layer->getLayerSize(); for (unsigned int y = 0; y < ls.height; y++) { for (unsigned int x = 0; x < ls.width; x++) { layer->setTileGID(1, Point( x, y ) ); } } } std::string TMXResizeTest::title() { return "TMX resize test"; } std::string TMXResizeTest::subtitle() { return "Should not crash. Testing issue #740"; } //------------------------------------------------------------------ // // TMXIsoZorder // //------------------------------------------------------------------ TMXIsoZorder::TMXIsoZorder() { auto map = TMXTiledMap::create("TileMaps/iso-test-zorder.tmx"); addChild(map, 0, kTagTileMap); auto s = map->getContentSize(); CCLOG("ContentSize: %f, %f", s.width,s.height); map->setPosition(Point(-s.width/2,0)); _tamara = Sprite::create(s_pathSister1); map->addChild(_tamara, map->getChildren()->count() ); _tamara->retain(); int mapWidth = map->getMapSize().width * map->getTileSize().width; _tamara->setPosition(CC_POINT_PIXELS_TO_POINTS(Point( mapWidth/2,0))); _tamara->setAnchorPoint(Point(0.5f,0)); auto move = MoveBy::create(10, Point(300,250)); auto back = move->reverse(); auto seq = Sequence::create(move, back,NULL); _tamara->runAction( RepeatForever::create(seq) ); schedule( schedule_selector(TMXIsoZorder::repositionSprite) ); } TMXIsoZorder::~TMXIsoZorder() { _tamara->release(); } void TMXIsoZorder::onExit() { unschedule(schedule_selector(TMXIsoZorder::repositionSprite)); TileDemo::onExit(); } void TMXIsoZorder::repositionSprite(float dt) { auto p = _tamara->getPosition(); p = CC_POINT_POINTS_TO_PIXELS(p); auto map = getChildByTag(kTagTileMap); // there are only 4 layers. (grass and 3 trees layers) // if tamara < 48, z=4 // if tamara < 96, z=3 // if tamara < 144,z=2 int newZ = 4 - (p.y / 48); newZ = max(newZ,0); map->reorderChild(_tamara, newZ); } std::string TMXIsoZorder::title() { return "TMX Iso Zorder"; } std::string TMXIsoZorder::subtitle() { return "Sprite should hide behind the trees"; } //------------------------------------------------------------------ // // TMXOrthoZorder // //------------------------------------------------------------------ TMXOrthoZorder::TMXOrthoZorder() { auto map = TMXTiledMap::create("TileMaps/orthogonal-test-zorder.tmx"); addChild(map, 0, kTagTileMap); Size CC_UNUSED s = map->getContentSize(); CCLOG("ContentSize: %f, %f", s.width,s.height); _tamara = Sprite::create(s_pathSister1); map->addChild(_tamara, map->getChildren()->count()); _tamara->retain(); _tamara->setAnchorPoint(Point(0.5f,0)); auto move = MoveBy::create(10, Point(400,450)); auto back = move->reverse(); auto seq = Sequence::create(move, back,NULL); _tamara->runAction( RepeatForever::create(seq)); schedule( schedule_selector(TMXOrthoZorder::repositionSprite)); } TMXOrthoZorder::~TMXOrthoZorder() { _tamara->release(); } void TMXOrthoZorder::repositionSprite(float dt) { auto p = _tamara->getPosition(); p = CC_POINT_POINTS_TO_PIXELS(p); auto map = getChildByTag(kTagTileMap); // there are only 4 layers. (grass and 3 trees layers) // if tamara < 81, z=4 // if tamara < 162, z=3 // if tamara < 243,z=2 // -10: customization for this particular sample int newZ = 4 - ( (p.y-10) / 81); newZ = max(newZ,0); map->reorderChild(_tamara, newZ); } std::string TMXOrthoZorder::title() { return "TMX Ortho Zorder"; } std::string TMXOrthoZorder::subtitle() { return "Sprite should hide behind the trees"; } //------------------------------------------------------------------ // // TMXIsoVertexZ // //------------------------------------------------------------------ TMXIsoVertexZ::TMXIsoVertexZ() { auto map = TMXTiledMap::create("TileMaps/iso-test-vertexz.tmx"); addChild(map, 0, kTagTileMap); auto s = map->getContentSize(); map->setPosition( Point(-s.width/2,0) ); CCLOG("ContentSize: %f, %f", s.width,s.height); // because I'm lazy, I'm reusing a tile as an sprite, but since this method uses vertexZ, you // can use any Sprite and it will work OK. auto layer = map->getLayer("Trees"); _tamara = layer->getTileAt( Point(29,29) ); _tamara->retain(); auto move = MoveBy::create(10, Point(300,250) * (1/CC_CONTENT_SCALE_FACTOR())); auto back = move->reverse(); auto seq = Sequence::create(move, back,NULL); _tamara->runAction( RepeatForever::create(seq) ); schedule( schedule_selector(TMXIsoVertexZ::repositionSprite)); } TMXIsoVertexZ::~TMXIsoVertexZ() { _tamara->release(); } void TMXIsoVertexZ::repositionSprite(float dt) { // tile height is 64x32 // map size: 30x30 auto p = _tamara->getPosition(); p = CC_POINT_POINTS_TO_PIXELS(p); float newZ = -(p.y+32) /16; _tamara->setVertexZ( newZ ); } void TMXIsoVertexZ::onEnter() { TileDemo::onEnter(); // TIP: 2d projection should be used Director::getInstance()->setProjection(Director::Projection::_2D); } void TMXIsoVertexZ::onExit() { // At exit use any other projection. // Director::getInstance()->setProjection:Director::Projection::_3D); TileDemo::onExit(); } std::string TMXIsoVertexZ::title() { return "TMX Iso VertexZ"; } std::string TMXIsoVertexZ::subtitle() { return "Sprite should hide behind the trees"; } //------------------------------------------------------------------ // // TMXOrthoVertexZ // //------------------------------------------------------------------ TMXOrthoVertexZ::TMXOrthoVertexZ() { auto map = TMXTiledMap::create("TileMaps/orthogonal-test-vertexz.tmx"); addChild(map, 0, kTagTileMap); Size CC_UNUSED s = map->getContentSize(); CCLOG("ContentSize: %f, %f", s.width,s.height); // because I'm lazy, I'm reusing a tile as an sprite, but since this method uses vertexZ, you // can use any Sprite and it will work OK. auto layer = map->getLayer("trees"); _tamara = layer->getTileAt(Point(0,11)); CCLOG("%p vertexZ: %f", _tamara, _tamara->getVertexZ()); _tamara->retain(); auto move = MoveBy::create(10, Point(400,450) * (1/CC_CONTENT_SCALE_FACTOR())); auto back = move->reverse(); auto seq = Sequence::create(move, back,NULL); _tamara->runAction( RepeatForever::create(seq)); schedule(schedule_selector(TMXOrthoVertexZ::repositionSprite)); } TMXOrthoVertexZ::~TMXOrthoVertexZ() { _tamara->release(); } void TMXOrthoVertexZ::repositionSprite(float dt) { // tile height is 101x81 // map size: 12x12 auto p = _tamara->getPosition(); p = CC_POINT_POINTS_TO_PIXELS(p); _tamara->setVertexZ( -( (p.y+81) /81) ); } void TMXOrthoVertexZ::onEnter() { TileDemo::onEnter(); // TIP: 2d projection should be used Director::getInstance()->setProjection(Director::Projection::_2D); } void TMXOrthoVertexZ::onExit() { // At exit use any other projection. // Director::getInstance()->setProjection:Director::Projection::_3D); TileDemo::onExit(); } std::string TMXOrthoVertexZ::title() { return "TMX Ortho vertexZ"; } std::string TMXOrthoVertexZ::subtitle() { return "Sprite should hide behind the trees"; } //------------------------------------------------------------------ // // TMXIsoMoveLayer // //------------------------------------------------------------------ TMXIsoMoveLayer::TMXIsoMoveLayer() { auto map = TMXTiledMap::create("TileMaps/iso-test-movelayer.tmx"); addChild(map, 0, kTagTileMap); map->setPosition(Point(-700,-50)); Size CC_UNUSED s = map->getContentSize(); CCLOG("ContentSize: %f, %f", s.width,s.height); } std::string TMXIsoMoveLayer::title() { return "TMX Iso Move Layer"; } std::string TMXIsoMoveLayer::subtitle() { return "Trees should be horizontally aligned"; } //------------------------------------------------------------------ // // TMXOrthoMoveLayer // //------------------------------------------------------------------ TMXOrthoMoveLayer::TMXOrthoMoveLayer() { auto map = TMXTiledMap::create("TileMaps/orthogonal-test-movelayer.tmx"); addChild(map, 0, kTagTileMap); Size CC_UNUSED s = map->getContentSize(); CCLOG("ContentSize: %f, %f", s.width,s.height); } std::string TMXOrthoMoveLayer::title() { return "TMX Ortho Move Layer"; } std::string TMXOrthoMoveLayer::subtitle() { return "Trees should be horizontally aligned"; } //------------------------------------------------------------------ // // TMXTilePropertyTest // //------------------------------------------------------------------ TMXTilePropertyTest::TMXTilePropertyTest() { auto map = TMXTiledMap::create("TileMaps/ortho-tile-property.tmx"); addChild(map ,0 ,kTagTileMap); for(int i=1;i<=20;i++){ log("GID:%i, Properties:%p", i, map->getPropertiesForGID(i)); } } std::string TMXTilePropertyTest::title() { return "TMX Tile Property Test"; } std::string TMXTilePropertyTest::subtitle() { return "In the console you should see tile properties"; } //------------------------------------------------------------------ // // TMXOrthoFlipTest // //------------------------------------------------------------------ TMXOrthoFlipTest::TMXOrthoFlipTest() { auto map = TMXTiledMap::create("TileMaps/ortho-rotation-test.tmx"); addChild(map, 0, kTagTileMap); Size CC_UNUSED s = map->getContentSize(); log("ContentSize: %f, %f", s.width,s.height); Object* pObj = NULL; CCARRAY_FOREACH(map->getChildren(), pObj) { auto child = static_cast(pObj); child->getTexture()->setAntiAliasTexParameters(); } auto action = ScaleBy::create(2, 0.5f); map->runAction(action); } std::string TMXOrthoFlipTest::title() { return "TMX tile flip test"; } //------------------------------------------------------------------ // // TMXOrthoFlipRunTimeTest // //------------------------------------------------------------------ TMXOrthoFlipRunTimeTest::TMXOrthoFlipRunTimeTest() { auto map = TMXTiledMap::create("TileMaps/ortho-rotation-test.tmx"); addChild(map, 0, kTagTileMap); auto s = map->getContentSize(); log("ContentSize: %f, %f", s.width,s.height); Object* pObj = NULL; CCARRAY_FOREACH(map->getChildren(), pObj) { auto child = static_cast(pObj); child->getTexture()->setAntiAliasTexParameters(); } auto action = ScaleBy::create(2, 0.5f); map->runAction(action); schedule(schedule_selector(TMXOrthoFlipRunTimeTest::flipIt), 1.0f); } std::string TMXOrthoFlipRunTimeTest::title() { return "TMX tile flip run time test"; } std::string TMXOrthoFlipRunTimeTest::subtitle() { return "in 2 sec bottom left tiles will flip"; } void TMXOrthoFlipRunTimeTest::flipIt(float dt) { auto map = (TMXTiledMap*) getChildByTag(kTagTileMap); auto layer = map->getLayer("Layer 0"); //blue diamond auto tileCoord = Point(1,10); int flags; unsigned int GID = layer->getTileGIDAt(tileCoord, (ccTMXTileFlags*)&flags); // Vertical if( flags & kTMXTileVerticalFlag ) flags &= ~kTMXTileVerticalFlag; else flags |= kTMXTileVerticalFlag; layer->setTileGID(GID ,tileCoord, (ccTMXTileFlags)flags); tileCoord = Point(1,8); GID = layer->getTileGIDAt(tileCoord, (ccTMXTileFlags*)&flags); // Vertical if( flags & kTMXTileVerticalFlag ) flags &= ~kTMXTileVerticalFlag; else flags |= kTMXTileVerticalFlag; layer->setTileGID(GID ,tileCoord, (ccTMXTileFlags)flags); tileCoord = Point(2,8); GID = layer->getTileGIDAt(tileCoord, (ccTMXTileFlags*)&flags); // Horizontal if( flags & kTMXTileHorizontalFlag ) flags &= ~kTMXTileHorizontalFlag; else flags |= kTMXTileHorizontalFlag; layer->setTileGID(GID, tileCoord, (ccTMXTileFlags)flags); } //------------------------------------------------------------------ // // TMXOrthoFromXMLTest // //------------------------------------------------------------------ TMXOrthoFromXMLTest::TMXOrthoFromXMLTest() { string resources = "TileMaps"; // partial paths are OK as resource paths. string file = resources + "/orthogonal-test1.tmx"; auto str = String::createWithContentsOfFile(FileUtils::getInstance()->fullPathForFilename(file.c_str()).c_str()); CCASSERT(str != NULL, "Unable to open file"); auto map = TMXTiledMap::createWithXML(str->getCString() ,resources.c_str()); addChild(map, 0, kTagTileMap); auto s = map->getContentSize(); log("ContentSize: %f, %f", s.width,s.height); Object* pObj = NULL; CCARRAY_FOREACH(map->getChildren(), pObj) { auto child = static_cast(pObj); child->getTexture()->setAntiAliasTexParameters(); } auto action = ScaleBy::create(2, 0.5f); map->runAction(action); } std::string TMXOrthoFromXMLTest::title() { return "TMX created from XML test"; } //------------------------------------------------------------------ // // TMXBug987 // //------------------------------------------------------------------ TMXBug987::TMXBug987() { auto map = TMXTiledMap::create("TileMaps/orthogonal-test6.tmx"); addChild(map, 0, kTagTileMap); Size CC_UNUSED s1 = map->getContentSize(); CCLOG("ContentSize: %f, %f", s1.width,s1.height); auto childs = map->getChildren(); TMXLayer* node; Object* pObject = NULL; CCARRAY_FOREACH(childs, pObject) { node = static_cast(pObject); CC_BREAK_IF(!node); node->getTexture()->setAntiAliasTexParameters(); } map->setAnchorPoint(Point(0, 0)); auto layer = map->getLayer("Tile Layer 1"); layer->setTileGID(3, Point(2,2)); } std::string TMXBug987::title() { return "TMX Bug 987"; } std::string TMXBug987::subtitle() { return "You should see an square"; } //------------------------------------------------------------------ // // TMXBug787 // //------------------------------------------------------------------ TMXBug787::TMXBug787() { auto map = TMXTiledMap::create("TileMaps/iso-test-bug787.tmx"); addChild(map, 0, kTagTileMap); map->setScale(0.25f); } std::string TMXBug787::title() { return "TMX Bug 787"; } std::string TMXBug787::subtitle() { return "You should see a map"; } //------------------------------------------------------------------ // // TileDemo // //------------------------------------------------------------------ enum { IDC_NEXT = 100, IDC_BACK, IDC_RESTART }; static int sceneIdx = -1; #define MAX_LAYER 28 Layer* createTileMalayer(int nIndex) { switch(nIndex) { case 0: return new TMXIsoZorder(); case 1: return new TMXOrthoZorder(); case 2: return new TMXIsoVertexZ(); case 3: return new TMXOrthoVertexZ(); case 4: return new TMXOrthoTest(); case 5: return new TMXOrthoTest2(); case 6: return new TMXOrthoTest3(); case 7: return new TMXOrthoTest4(); case 8: return new TMXIsoTest(); case 9: return new TMXIsoTest1(); case 10: return new TMXIsoTest2(); case 11: return new TMXUncompressedTest (); case 12: return new TMXHexTest(); case 13: return new TMXReadWriteTest(); case 14: return new TMXTilesetTest(); case 15: return new TMXOrthoObjectsTest(); case 16: return new TMXIsoObjectsTest(); case 17: return new TMXResizeTest(); case 18: return new TMXIsoMoveLayer(); case 19: return new TMXOrthoMoveLayer(); case 20: return new TMXOrthoFlipTest(); case 21: return new TMXOrthoFlipRunTimeTest(); case 22: return new TMXOrthoFromXMLTest(); case 23: return new TileMapTest(); case 24: return new TileMapEditTest(); case 25: return new TMXBug987(); case 26: return new TMXBug787(); case 27: return new TMXGIDObjectsTest(); } return NULL; } Layer* nextTileMapAction() { sceneIdx++; sceneIdx = sceneIdx % MAX_LAYER; auto layer = createTileMalayer(sceneIdx); layer->autorelease(); return layer; } Layer* backTileMapAction() { sceneIdx--; int total = MAX_LAYER; if( sceneIdx < 0 ) sceneIdx += total; auto layer = createTileMalayer(sceneIdx); layer->autorelease(); return layer; } Layer* restartTileMapAction() { auto layer = createTileMalayer(sceneIdx); layer->autorelease(); return layer; } TileDemo::TileDemo(void) : BaseTest() { setTouchEnabled( true ); } TileDemo::~TileDemo(void) { } std::string TileDemo::title() { return "No title"; } std::string TileDemo::subtitle() { return "drag the screen"; } void TileDemo::onEnter() { BaseTest::onEnter(); } void TileDemo::restartCallback(Object* sender) { auto s = new TileMapTestScene(); s->addChild(restartTileMapAction()); Director::getInstance()->replaceScene(s); s->release(); } void TileDemo::nextCallback(Object* sender) { auto s = new TileMapTestScene(); s->addChild( nextTileMapAction() ); Director::getInstance()->replaceScene(s); s->release(); } void TileDemo::backCallback(Object* sender) { auto s = new TileMapTestScene(); s->addChild( backTileMapAction() ); Director::getInstance()->replaceScene(s); s->release(); } void TileDemo::onTouchesMoved(const std::vector& touches, Event *event) { auto touch = touches[0]; auto diff = touch->getDelta(); auto node = getChildByTag(kTagTileMap); auto currentPos = node->getPosition(); node->setPosition(currentPos + diff); } void TileMapTestScene::runThisTest() { auto layer = nextTileMapAction(); addChild(layer); // fix bug #486, #419. // "test" is the default value in Director::setGLDefaultValues() // but TransitionTest may setDepthTest(false), we should revert it here Director::getInstance()->setDepthTest(true); Director::getInstance()->replaceScene(this); } TMXGIDObjectsTest::TMXGIDObjectsTest() { auto map = TMXTiledMap::create("TileMaps/test-object-layer.tmx"); addChild(map, -1, kTagTileMap); Size CC_UNUSED s = map->getContentSize(); CCLOG("Contentsize: %f, %f", s.width, s.height); CCLOG("----> Iterating over all the group objets"); //auto group = map->objectGroupNamed("Object Layer 1"); } void TMXGIDObjectsTest::draw() { auto map = (TMXTiledMap*)getChildByTag(kTagTileMap); auto group = map->getObjectGroup("Object Layer 1"); auto array = group->getObjects(); Dictionary* dict; Object* pObj = NULL; CCARRAY_FOREACH(array, pObj) { dict = static_cast(pObj); if(!dict) { break; } const char* key = "x"; int x = ((String*)dict->objectForKey(key))->intValue(); key = "y"; int y = ((String*)dict->objectForKey(key))->intValue(); key = "width"; int width = ((String*)dict->objectForKey(key))->intValue(); key = "height"; int height = ((String*)dict->objectForKey(key))->intValue(); glLineWidth(3); DrawPrimitives::drawLine(Point(x, y), Point(x + width, y)); DrawPrimitives::drawLine(Point(x + width, y), Point(x + width, y + height)); DrawPrimitives::drawLine(Point(x + width,y + height), Point(x,y + height)); DrawPrimitives::drawLine(Point(x,y + height), Point(x,y)); glLineWidth(1); } } string TMXGIDObjectsTest::title() { return "TMX GID objects"; } string TMXGIDObjectsTest::subtitle() { return "Tiles are created from an object group"; }