axmol/tests/cpp-tests/Source/TileMapTest/TileMapTest2.cpp

1434 lines
41 KiB
C++

/****************************************************************************
Copyright (c) 2017-2018 Xiamen Yaji Software Co., Ltd.
https://axmolengine.github.io/
Permission is hereby granted, free of charge, to any person obtaining a copy
of this software and associated documentation files (the "Software"), to deal
in the Software without restriction, including without limitation the rights
to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
copies of the Software, and to permit persons to whom the Software is
furnished to do so, subject to the following conditions:
The above copyright notice and this permission notice shall be included in
all copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
THE SOFTWARE.
****************************************************************************/
#include "TileMapTest2.h"
#include "../testResource.h"
#include "2d/FastTMXLayer.h"
#include "2d/FastTMXTiledMap.h"
USING_NS_AX;
enum
{
kTagTileMap = 1,
};
FastTileMapTests::FastTileMapTests()
{
ADD_TEST_CASE(TMXIsoZorderNew);
ADD_TEST_CASE(TMXOrthoZorderNew);
ADD_TEST_CASE(TMXIsoVertexZNew);
ADD_TEST_CASE(TMXOrthoVertexZNew);
ADD_TEST_CASE(TMXOrthoTestNew);
ADD_TEST_CASE(TMXOrthoTest2New);
ADD_TEST_CASE(TMXOrthoTest3New);
ADD_TEST_CASE(TMXOrthoTest4New);
ADD_TEST_CASE(TMXIsoTestNew);
ADD_TEST_CASE(TMXIsoTest1New);
ADD_TEST_CASE(TMXIsoTest2New);
ADD_TEST_CASE(TMXUncompressedTestNew);
ADD_TEST_CASE(TMXHexTestNew);
ADD_TEST_CASE(TMXReadWriteTestNew);
ADD_TEST_CASE(TMXTilesetTestNew);
ADD_TEST_CASE(TMXOrthoObjectsTestNew);
ADD_TEST_CASE(TMXIsoObjectsTestNew);
ADD_TEST_CASE(TMXResizeTestNew);
ADD_TEST_CASE(TMXIsoMoveLayerNew);
ADD_TEST_CASE(TMXOrthoMoveLayerNew);
ADD_TEST_CASE(TMXOrthoFlipTestNew);
ADD_TEST_CASE(TMXOrthoFlipRunTimeTestNew);
ADD_TEST_CASE(TMXOrthoFromXMLTestNew);
ADD_TEST_CASE(TMXOrthoXMLFormatTestNew);
ADD_TEST_CASE(TileMapTestNew);
ADD_TEST_CASE(TileMapEditTestNew);
ADD_TEST_CASE(TMXBug987New);
ADD_TEST_CASE(TMXBug787New);
ADD_TEST_CASE(TMXGIDObjectsTestNew);
ADD_TEST_CASE(TileAnimTestNew);
ADD_TEST_CASE(TileAnimTestNew2);
}
TileDemoNew::TileDemoNew()
{
// fix bug #486, #419.
// "test" is the default value in Director::setGLDefaultValues()
// but TransitionTest may setDepthTest(false), we should revert it here
Director::getInstance()->getRenderer()->setDepthTest(true);
Director::getInstance()->getRenderer()->setDepthWrite(true);
auto listener = EventListenerTouchAllAtOnce::create();
listener->onTouchesMoved = AX_CALLBACK_2(TileDemoNew::onTouchesMoved, this);
_eventDispatcher->addEventListenerWithSceneGraphPriority(listener, this);
}
TileDemoNew::~TileDemoNew() {}
std::string TileDemoNew::title() const
{
return "No title";
}
std::string TileDemoNew::subtitle() const
{
return "drag the screen";
}
void TileDemoNew::onExit()
{
TestCase::onExit();
Director::getInstance()->getRenderer()->setDepthTest(false);
Director::getInstance()->getRenderer()->setDepthWrite(false);
}
void TileDemoNew::onTouchesMoved(const std::vector<Touch*>& touches, Event* event)
{
auto touch = touches[0];
auto diff = touch->getDelta();
auto node = getChildByTag(kTagTileMap);
auto currentPos = node->getPosition();
node->setPosition(currentPos + diff);
}
//------------------------------------------------------------------
//
// TileMapTestNew
//
//------------------------------------------------------------------
TileMapTestNew::TileMapTestNew()
{
auto map = TileMapAtlas::create(s_TilesPng, s_LevelMapTga, 16, 16);
// Convert it to "alias" (GL_LINEAR filtering)
map->getTexture()->setAntiAliasTexParameters();
Size AX_UNUSED s = map->getContentSize();
AXLOG("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(Vec2(0.0f, 0.5f));
auto scale = ScaleBy::create(4, 0.8f);
auto scaleBack = scale->reverse();
auto seq = Sequence::create(scale, scaleBack, nullptr);
map->runAction(RepeatForever::create(seq));
}
std::string TileMapTestNew::title() const
{
return "TileMapAtlas";
}
//------------------------------------------------------------------
//
// TileMapEditTestNew
//
//------------------------------------------------------------------
TileMapEditTestNew::TileMapEditTestNew()
{
auto map = TileMapAtlas::create(s_TilesPng, s_LevelMapTga, 16, 16);
// Create an Aliased Atlas
map->getTexture()->setAliasTexParameters();
Size AX_UNUSED s = map->getContentSize();
AXLOG("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(AX_SCHEDULE_SELECTOR(TileMapEditTestNew::updateMap), 0.2f);
addChild(map, 0, kTagTileMap);
map->setAnchorPoint(Vec2(0, 0));
map->setPosition(Vec2(-20, -200));
}
void TileMapEditTestNew::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 ) {
// ////----AXLOG("%d,%d = %d", x,y,c.r);
// }
// }
// }
// NEW since v0.7
Color3B c = tilemap->getTileAt(Vec2(13, 21));
c.r++;
c.r %= 50;
if (c.r == 0)
c.r = 1;
// NEW since v0.7
tilemap->setTile(c, Vec2(13, 21));
}
std::string TileMapEditTestNew::title() const
{
return "Editable TileMapAtlas";
}
//------------------------------------------------------------------
//
// TMXOrthoTestNew
//
//------------------------------------------------------------------
TMXOrthoTestNew::TMXOrthoTestNew()
{
//
// 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 = ax::FastTMXTiledMap::create("TileMaps/orthogonal-test2.tmx");
addChild(map, 0, kTagTileMap);
Size AX_UNUSED s = map->getContentSize();
AXLOG("ContentSize: %f, %f", s.width, s.height);
auto scale = ScaleBy::create(10, 0.1f);
auto back = scale->reverse();
auto seq = Sequence::create(scale, back, nullptr);
auto repeat = RepeatForever::create(seq);
map->runAction(repeat);
// float x, y, z;
// map->getCamera()->getEye(&x, &y, &z);
// map->getCamera()->setEye(x-200, y, z+300);
}
void TMXOrthoTestNew::onEnter()
{
TileDemoNew::onEnter();
Director::getInstance()->setProjection(Director::Projection::_3D);
}
void TMXOrthoTestNew::onExit()
{
Director::getInstance()->setProjection(Director::Projection::DEFAULT);
TileDemoNew::onExit();
}
std::string TMXOrthoTestNew::title() const
{
return "TMX Orthogonal test";
}
//------------------------------------------------------------------
//
// TMXOrthoTest2New
//
//------------------------------------------------------------------
TMXOrthoTest2New::TMXOrthoTest2New()
{
auto map = ax::FastTMXTiledMap::create("TileMaps/orthogonal-test1.tmx");
addChild(map, 0, kTagTileMap);
Size AX_UNUSED s = map->getContentSize();
AXLOG("ContentSize: %f, %f", s.width, s.height);
map->runAction(ScaleBy::create(2, 0.5f));
}
std::string TMXOrthoTest2New::title() const
{
return "TMX Ortho test2";
}
//------------------------------------------------------------------
//
// TMXOrthoTest3New
//
//------------------------------------------------------------------
TMXOrthoTest3New::TMXOrthoTest3New()
{
auto map = ax::FastTMXTiledMap::create("TileMaps/orthogonal-test3.tmx");
addChild(map, 0, kTagTileMap);
Size AX_UNUSED s = map->getContentSize();
AXLOG("ContentSize: %f, %f", s.width, s.height);
map->setScale(0.2f);
map->setAnchorPoint(Vec2(0.5f, 0.5f));
}
std::string TMXOrthoTest3New::title() const
{
return "TMX anchorPoint test";
}
//------------------------------------------------------------------
//
// TMXOrthoTest4New
//
//------------------------------------------------------------------
TMXOrthoTest4New::TMXOrthoTest4New()
{
auto map = ax::FastTMXTiledMap::create("TileMaps/orthogonal-test4.tmx");
addChild(map, 0, kTagTileMap);
Size AX_UNUSED s1 = map->getContentSize();
AXLOG("ContentSize: %f, %f", s1.width, s1.height);
map->setAnchorPoint(Vec2(0.0f, 0.0f));
auto layer = map->getLayer("Layer 0");
auto s = layer->getLayerSize();
Sprite* sprite;
sprite = layer->getTileAt(Vec2(0.0f, 0.0f));
sprite->setScale(2);
sprite = layer->getTileAt(Vec2(s.width - 1, 0.0f));
sprite->setScale(2);
sprite = layer->getTileAt(Vec2(0.0f, s.height - 1));
sprite->setScale(2);
sprite = layer->getTileAt(Vec2(s.width - 1, s.height - 1));
sprite->setScale(2);
schedule(AX_SCHEDULE_SELECTOR(TMXOrthoTest4New::removeSprite), 2);
}
void TMXOrthoTest4New::removeSprite(float dt)
{
unschedule(AX_SCHEDULE_SELECTOR(TMXOrthoTest4New::removeSprite));
auto map = static_cast<ax::FastTMXTiledMap*>(getChildByTag(kTagTileMap));
auto layer = map->getLayer("Layer 0");
auto s = layer->getLayerSize();
auto sprite = layer->getTileAt(Vec2(s.width - 1, 0.0f));
auto sprite2 = layer->getTileAt(Vec2(s.width - 1, s.height - 1));
layer->removeChild(sprite, true);
auto sprite3 = layer->getTileAt(Vec2(2.0f, s.height - 1));
layer->removeChild(sprite3, true);
layer->removeChild(sprite2, true);
}
std::string TMXOrthoTest4New::title() const
{
return "TMX width/height test";
}
//------------------------------------------------------------------
//
// TMXReadWriteTestNew
//
//------------------------------------------------------------------
enum
{
SID_UPDATECOL = 100,
SID_REPAINTWITHGID,
SID_REMOVETILES
};
TMXReadWriteTestNew::TMXReadWriteTestNew()
{
_gid = 0;
auto map = ax::FastTMXTiledMap::create("TileMaps/orthogonal-test2.tmx");
addChild(map, 0, kTagTileMap);
Size AX_UNUSED s = map->getContentSize();
AXLOG("ContentSize: %f, %f", s.width, s.height);
auto layer = map->getLayer("Layer 0");
map->setScale(1);
auto tile0 = layer->getTileAt(Vec2(1, 63));
auto tile1 = layer->getTileAt(Vec2(2, 63));
auto tile2 = layer->getTileAt(Vec2(3, 62)); // Vec2(1,62));
auto tile3 = layer->getTileAt(Vec2(2, 62));
tile0->setAnchorPoint(Vec2(0.5f, 0.5f));
tile1->setAnchorPoint(Vec2(0.5f, 0.5f));
tile2->setAnchorPoint(Vec2(0.5f, 0.5f));
tile3->setAnchorPoint(Vec2(0.5f, 0.5f));
auto move = MoveBy::create(0.5f, Vec2(0.0f, 160.0f));
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(AX_CALLBACK_1(TMXReadWriteTestNew::removeSprite, this));
auto seq0 = Sequence::create(move, rotate, scale, opacity, fadein, scaleback, finish, nullptr);
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(Vec2(0, 63));
////----AXLOG("Tile GID at:(0,63) is: %d", _gid);
schedule(AX_SCHEDULE_SELECTOR(TMXReadWriteTestNew::updateCol), 2.0f);
schedule(AX_SCHEDULE_SELECTOR(TMXReadWriteTestNew::repaintWithGID), 2.05f);
schedule(AX_SCHEDULE_SELECTOR(TMXReadWriteTestNew::removeTiles), 1.0f);
////----AXLOG("++++atlas quantity: %d", layer->textureAtlas()->getTotalQuads());
////----AXLOG("++++children: %d", layer->getChildren()->count() );
_gid2 = 0;
}
void TMXReadWriteTestNew::removeSprite(Node* sender)
{
////----AXLOG("removing tile: %x", sender);
auto p = ((Node*)sender)->getParent();
if (p)
{
p->removeChild((Node*)sender, true);
}
//////----AXLOG("atlas quantity: %d", p->textureAtlas()->totalQuads());
}
void TMXReadWriteTestNew::updateCol(float dt)
{
auto map = (ax::FastTMXTiledMap*)getChildByTag(kTagTileMap);
auto layer = (ax::FastTMXLayer*)map->getChildByTag(0);
////----AXLOG("++++atlas quantity: %d", layer->textureAtlas()->getTotalQuads());
////----AXLOG("++++children: %d", layer->getChildren()->count() );
auto s = layer->getLayerSize();
for (int y = 0; y < s.height; y++)
{
layer->setTileGID(_gid2, Vec2((float)3, (float)y));
}
_gid2 = (_gid2 + 1) % 80;
}
void TMXReadWriteTestNew::repaintWithGID(float dt)
{
// unschedule:_cmd);
auto map = (ax::FastTMXTiledMap*)getChildByTag(kTagTileMap);
auto layer = (ax::FastTMXLayer*)map->getChildByTag(0);
auto s = layer->getLayerSize();
for (int x = 0; x < s.width; x++)
{
int y = (int)s.height - 1;
unsigned int tmpgid = layer->getTileGIDAt(Vec2((float)x, (float)y));
layer->setTileGID(tmpgid + 1, Vec2((float)x, (float)y));
}
}
void TMXReadWriteTestNew::removeTiles(float dt)
{
unschedule(AX_SCHEDULE_SELECTOR(TMXReadWriteTestNew::removeTiles));
auto map = (ax::FastTMXTiledMap*)getChildByTag(kTagTileMap);
auto layer = (ax::FastTMXLayer*)map->getChildByTag(0);
auto s = layer->getLayerSize();
for (int y = 0; y < s.height; y++)
{
layer->removeTileAt(Vec2(5.0, (float)y));
}
}
std::string TMXReadWriteTestNew::title() const
{
return "TMX Read/Write test";
}
//------------------------------------------------------------------
//
// TMXHexTestNew
//
//------------------------------------------------------------------
TMXHexTestNew::TMXHexTestNew()
{
auto color = LayerColor::create(Color4B(64, 64, 64, 255));
addChild(color, -1);
auto map = ax::FastTMXTiledMap::create("TileMaps/hexa-test.tmx");
addChild(map, 0, kTagTileMap);
Size AX_UNUSED s = map->getContentSize();
AXLOG("ContentSize: %f, %f", s.width, s.height);
}
std::string TMXHexTestNew::title() const
{
return "TMX Hex tes";
}
//------------------------------------------------------------------
//
// TMXIsoTestNew
//
//------------------------------------------------------------------
TMXIsoTestNew::TMXIsoTestNew()
{
auto color = LayerColor::create(Color4B(64, 64, 64, 255));
addChild(color, -1);
auto map = ax::FastTMXTiledMap::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, Vec2(-ms.width * ts.width / 2, -ms.height * ts.height / 2)));
}
std::string TMXIsoTestNew::title() const
{
return "TMX Isometric test 0";
}
//------------------------------------------------------------------
//
// TMXIsoTest1New
//
//------------------------------------------------------------------
TMXIsoTest1New::TMXIsoTest1New()
{
auto color = LayerColor::create(Color4B(64, 64, 64, 255));
addChild(color, -1);
auto map = ax::FastTMXTiledMap::create("TileMaps/iso-test1.tmx");
addChild(map, 0, kTagTileMap);
Size AX_UNUSED s = map->getContentSize();
AXLOG("ContentSize: %f, %f", s.width, s.height);
map->setAnchorPoint(Vec2(0.5f, 0.5f));
}
std::string TMXIsoTest1New::title() const
{
return "TMX Isometric test + anchorPoint";
}
//------------------------------------------------------------------
//
// TMXIsoTest2New
//
//------------------------------------------------------------------
TMXIsoTest2New::TMXIsoTest2New()
{
auto color = LayerColor::create(Color4B(64, 64, 64, 255));
addChild(color, -1);
auto map = ax::FastTMXTiledMap::create("TileMaps/iso-test2.tmx");
addChild(map, 0, kTagTileMap);
Size AX_UNUSED s = map->getContentSize();
AXLOG("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, Vec2(-ms.width * ts.width / 2, -ms.height * ts.height / 2)));
}
std::string TMXIsoTest2New::title() const
{
return "TMX Isometric test 2";
}
//------------------------------------------------------------------
//
// TMXUncompressedTestNew
//
//------------------------------------------------------------------
TMXUncompressedTestNew::TMXUncompressedTestNew()
{
auto color = LayerColor::create(Color4B(64, 64, 64, 255));
addChild(color, -1);
auto map = ax::FastTMXTiledMap::create("TileMaps/iso-test2-uncompressed.tmx");
addChild(map, 0, kTagTileMap);
Size AX_UNUSED s = map->getContentSize();
AXLOG("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, Vec2(-ms.width * ts.width / 2, -ms.height * ts.height / 2)));
// unsupported
// // testing release map
// TMXLayer* layer;
//
// auto& children = map->getChildren();
// for(const auto &node : children) {
// layer= static_cast<TMXLayer*>(node);
// layer->releaseMap();
// }
}
std::string TMXUncompressedTestNew::title() const
{
return "TMX Uncompressed test";
}
//------------------------------------------------------------------
//
// TMXTilesetTestNew
//
//------------------------------------------------------------------
TMXTilesetTestNew::TMXTilesetTestNew()
{
auto map = ax::FastTMXTiledMap::create("TileMaps/orthogonal-test5.tmx");
addChild(map, 0, kTagTileMap);
Size AX_UNUSED s = map->getContentSize();
AXLOG("ContentSize: %f, %f", s.width, s.height);
}
std::string TMXTilesetTestNew::title() const
{
return "TMX Tileset test";
}
//------------------------------------------------------------------
//
// TMXOrthoObjectsTestNew
//
//------------------------------------------------------------------
TMXOrthoObjectsTestNew::TMXOrthoObjectsTestNew()
{
auto map = ax::FastTMXTiledMap::create("TileMaps/ortho-objects.tmx");
addChild(map, -1, kTagTileMap);
Size AX_UNUSED s = map->getContentSize();
AXLOG("ContentSize: %f, %f", s.width, s.height);
auto group = map->getObjectGroup("Object Group 1");
auto& objects = group->getObjects();
Value objectsVal = Value(objects);
AXLOG("%s", objectsVal.getDescription().c_str());
auto drawNode = DrawNode::create();
Color4F color(1.0, 1.0, 1.0, 1.0);
for (auto&& obj : objects)
{
ValueMap& dict = obj.asValueMap();
float x = dict["x"].asFloat();
float y = dict["y"].asFloat();
float width = dict["width"].asFloat();
float height = dict["height"].asFloat();
drawNode->drawLine(Vec2(x, y), Vec2(x + width, y), color);
drawNode->drawLine(Vec2(x + width, y), Vec2(x + width, y + height), color);
drawNode->drawLine(Vec2(x + width, y + height), Vec2(x, y + height), color);
drawNode->drawLine(Vec2(x, y + height), Vec2(x, y), color);
}
map->addChild(drawNode);
}
std::string TMXOrthoObjectsTestNew::title() const
{
return "TMX Ortho object test";
}
std::string TMXOrthoObjectsTestNew::subtitle() const
{
return "You should see a white box around the 3 platforms";
}
//------------------------------------------------------------------
//
// TMXIsoObjectsTestNew
//
//------------------------------------------------------------------
TMXIsoObjectsTestNew::TMXIsoObjectsTestNew()
{
auto map = ax::FastTMXTiledMap::create("TileMaps/iso-test-objectgroup.tmx");
addChild(map, -1, kTagTileMap);
Size AX_UNUSED s = map->getContentSize();
AXLOG("ContentSize: %f, %f", s.width, s.height);
auto group = map->getObjectGroup("Object Group 1");
auto& objects = group->getObjects();
Value objectsVal = Value(objects);
AXLOG("%s", objectsVal.getDescription().c_str());
auto drawNode = DrawNode::create();
Color4F color(1.0, 1.0, 1.0, 1.0);
for (auto&& obj : objects)
{
ValueMap& dict = obj.asValueMap();
float x = dict["x"].asFloat();
float y = dict["y"].asFloat();
float width = dict["width"].asFloat();
float height = dict["height"].asFloat();
drawNode->drawLine(Vec2(x, y), Vec2(x + width, y), color);
drawNode->drawLine(Vec2(x + width, y), Vec2(x + width, y + height), color);
drawNode->drawLine(Vec2(x + width, y + height), Vec2(x, y + height), color);
drawNode->drawLine(Vec2(x, y + height), Vec2(x, y), color);
}
map->addChild(drawNode, 10);
}
std::string TMXIsoObjectsTestNew::title() const
{
return "TMX Iso object test";
}
std::string TMXIsoObjectsTestNew::subtitle() const
{
return "You need to parse them manually. See bug #810";
}
//------------------------------------------------------------------
//
// TMXResizeTestNew
//
//------------------------------------------------------------------
TMXResizeTestNew::TMXResizeTestNew()
{
auto map = ax::FastTMXTiledMap::create("TileMaps/orthogonal-test5.tmx");
addChild(map, 0, kTagTileMap);
Size AX_UNUSED s = map->getContentSize();
AXLOG("ContentSize: %f, %f", s.width, s.height);
ax::FastTMXLayer* 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, Vec2((float)x, (float)y));
}
}
}
std::string TMXResizeTestNew::title() const
{
return "TMX resize test";
}
std::string TMXResizeTestNew::subtitle() const
{
return "Should not crash. Testing issue #740";
}
//------------------------------------------------------------------
//
// TMXIsoZorderNew
//
//------------------------------------------------------------------
TMXIsoZorderNew::TMXIsoZorderNew()
{
Director::getInstance()->getRenderer()->setDepthTest(false);
auto map = ax::FastTMXTiledMap::create("TileMaps/iso-test-zorder.tmx");
addChild(map, 0, kTagTileMap);
auto s = map->getContentSize();
AXLOG("ContentSize: %f, %f", s.width, s.height);
map->setPosition(Vec2(-s.width / 2, 0.0f));
_tamara = Sprite::create(s_pathSister1);
map->addChild(_tamara, (int)map->getChildren().size());
_tamara->retain();
int mapWidth = map->getMapSize().width * map->getTileSize().width;
_tamara->setPosition(AX_POINT_PIXELS_TO_POINTS(Vec2(mapWidth / 2.0f, 0.0f)));
_tamara->setAnchorPoint(Vec2(0.5f, 0.0f));
auto move = MoveBy::create(10, Vec2(300.0f, 250.0f));
auto back = move->reverse();
auto seq = Sequence::create(move, back, nullptr);
_tamara->runAction(RepeatForever::create(seq));
schedule(AX_SCHEDULE_SELECTOR(TMXIsoZorderNew::repositionSprite));
}
TMXIsoZorderNew::~TMXIsoZorderNew()
{
_tamara->release();
}
void TMXIsoZorderNew::onExit()
{
unschedule(AX_SCHEDULE_SELECTOR(TMXIsoZorderNew::repositionSprite));
TileDemoNew::onExit();
}
void TMXIsoZorderNew::repositionSprite(float dt)
{
auto p = _tamara->getPosition();
p = AX_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 = std::max(newZ, 0);
map->reorderChild(_tamara, newZ);
}
std::string TMXIsoZorderNew::title() const
{
return "TMX Iso Zorder";
}
std::string TMXIsoZorderNew::subtitle() const
{
return "Sprite should hide behind the trees";
}
//------------------------------------------------------------------
//
// TMXOrthoZorderNew
//
//------------------------------------------------------------------
TMXOrthoZorderNew::TMXOrthoZorderNew()
{
auto map = ax::FastTMXTiledMap::create("TileMaps/orthogonal-test-zorder.tmx");
addChild(map, 0, kTagTileMap);
Size AX_UNUSED s = map->getContentSize();
AXLOG("ContentSize: %f, %f", s.width, s.height);
_tamara = Sprite::create(s_pathSister1);
map->addChild(_tamara, (int)map->getChildren().size());
_tamara->retain();
_tamara->setAnchorPoint(Vec2(0.5f, 0.0f));
auto move = MoveBy::create(10, Vec2(400.0f, 450.0f));
auto back = move->reverse();
auto seq = Sequence::create(move, back, nullptr);
_tamara->runAction(RepeatForever::create(seq));
schedule(AX_SCHEDULE_SELECTOR(TMXOrthoZorderNew::repositionSprite));
}
TMXOrthoZorderNew::~TMXOrthoZorderNew()
{
_tamara->release();
}
void TMXOrthoZorderNew::repositionSprite(float dt)
{
auto p = _tamara->getPosition();
p = AX_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 = std::max(newZ, 0);
map->reorderChild(_tamara, newZ);
}
std::string TMXOrthoZorderNew::title() const
{
return "TMX Ortho Zorder";
}
std::string TMXOrthoZorderNew::subtitle() const
{
return "Sprite should hide behind the trees";
}
//------------------------------------------------------------------
//
// TMXIsoVertexZNew
//
//------------------------------------------------------------------
TMXIsoVertexZNew::TMXIsoVertexZNew()
{
auto map = ax::FastTMXTiledMap::create("TileMaps/iso-test-vertexz.tmx");
addChild(map, 0, kTagTileMap);
auto s = map->getContentSize();
map->setPosition(Vec2(-s.width / 2, 0.0f));
AXLOG("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(Vec2(29.0f, 29.0f));
_tamara->retain();
auto move = MoveBy::create(10, Vec2(300, 250) * (1 / AX_CONTENT_SCALE_FACTOR()));
auto back = move->reverse();
auto seq = Sequence::create(move, back, nullptr);
_tamara->runAction(RepeatForever::create(seq));
schedule(AX_SCHEDULE_SELECTOR(TMXIsoVertexZNew::repositionSprite));
}
TMXIsoVertexZNew::~TMXIsoVertexZNew()
{
_tamara->release();
}
void TMXIsoVertexZNew::repositionSprite(float dt)
{
// tile height is 64x32
// map size: 30x30
auto p = _tamara->getPosition();
p = AX_POINT_POINTS_TO_PIXELS(p);
float newZ = -(p.y + 32) / 16;
_tamara->setPositionZ(newZ);
}
void TMXIsoVertexZNew::onEnter()
{
TileDemoNew::onEnter();
// TIP: 2d projection should be used
Director::getInstance()->setProjection(Director::Projection::_2D);
Director::getInstance()->getRenderer()->setDepthTest(true);
Director::getInstance()->getRenderer()->setDepthWrite(true);
}
void TMXIsoVertexZNew::onExit()
{
// At exit use any other projection.
Director::getInstance()->setProjection(Director::Projection::DEFAULT);
Director::getInstance()->getRenderer()->setDepthTest(false);
Director::getInstance()->getRenderer()->setDepthWrite(false);
TileDemoNew::onExit();
}
std::string TMXIsoVertexZNew::title() const
{
return "TMX Iso VertexZ";
}
std::string TMXIsoVertexZNew::subtitle() const
{
return "Doesn't support yet";
}
//------------------------------------------------------------------
//
// TMXOrthoVertexZNew
//
//------------------------------------------------------------------
TMXOrthoVertexZNew::TMXOrthoVertexZNew()
{
auto map = ax::FastTMXTiledMap::create("TileMaps/orthogonal-test-vertexz.tmx");
addChild(map, 0, kTagTileMap);
Size AX_UNUSED s = map->getContentSize();
AXLOG("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(Vec2(0, 11));
AXLOG("%p vertexZ: %f", _tamara, _tamara->getPositionZ());
_tamara->retain();
auto move = MoveBy::create(10, Vec2(400, 450) * (1 / AX_CONTENT_SCALE_FACTOR()));
auto back = move->reverse();
auto seq = Sequence::create(move, back, nullptr);
_tamara->runAction(RepeatForever::create(seq));
schedule(AX_SCHEDULE_SELECTOR(TMXOrthoVertexZNew::repositionSprite));
}
TMXOrthoVertexZNew::~TMXOrthoVertexZNew()
{
_tamara->release();
}
void TMXOrthoVertexZNew::repositionSprite(float dt)
{
// tile height is 101x81
// map size: 12x12
auto p = _tamara->getPosition();
p = AX_POINT_POINTS_TO_PIXELS(p);
_tamara->setPositionZ(-((p.y + 81) / 81));
}
void TMXOrthoVertexZNew::onEnter()
{
TileDemoNew::onEnter();
// TIP: 2d projection should be used
Director::getInstance()->setProjection(Director::Projection::_2D);
Director::getInstance()->getRenderer()->setDepthTest(true);
Director::getInstance()->getRenderer()->setDepthWrite(true);
}
void TMXOrthoVertexZNew::onExit()
{
// At exit use any other projection.
Director::getInstance()->setProjection(Director::Projection::DEFAULT);
Director::getInstance()->getRenderer()->setDepthTest(false);
Director::getInstance()->getRenderer()->setDepthWrite(false);
TileDemoNew::onExit();
}
std::string TMXOrthoVertexZNew::title() const
{
return "TMX Ortho vertexZ";
}
std::string TMXOrthoVertexZNew::subtitle() const
{
return "Doesn't support yet";
}
//------------------------------------------------------------------
//
// TMXIsoMoveLayerNew
//
//------------------------------------------------------------------
TMXIsoMoveLayerNew::TMXIsoMoveLayerNew()
{
auto map = ax::FastTMXTiledMap::create("TileMaps/iso-test-movelayer.tmx");
addChild(map, 0, kTagTileMap);
map->setPosition(Vec2(-700.0f, -50.0f));
Size AX_UNUSED s = map->getContentSize();
AXLOG("ContentSize: %f, %f", s.width, s.height);
}
std::string TMXIsoMoveLayerNew::title() const
{
return "TMX Iso Move Layer";
}
std::string TMXIsoMoveLayerNew::subtitle() const
{
return "Trees should be horizontally aligned";
}
//------------------------------------------------------------------
//
// TMXOrthoMoveLayerNew
//
//------------------------------------------------------------------
TMXOrthoMoveLayerNew::TMXOrthoMoveLayerNew()
{
auto map = ax::FastTMXTiledMap::create("TileMaps/orthogonal-test-movelayer.tmx");
addChild(map, 0, kTagTileMap);
Size AX_UNUSED s = map->getContentSize();
AXLOG("ContentSize: %f, %f", s.width, s.height);
}
std::string TMXOrthoMoveLayerNew::title() const
{
return "TMX Ortho Move Layer";
}
std::string TMXOrthoMoveLayerNew::subtitle() const
{
return "Trees should be horizontally aligned";
}
//------------------------------------------------------------------
//
// TMXTilePropertyTestNew
//
//------------------------------------------------------------------
TMXTilePropertyTestNew::TMXTilePropertyTestNew()
{
auto map = ax::FastTMXTiledMap::create("TileMaps/ortho-tile-property.tmx");
addChild(map, 0, kTagTileMap);
for (int i = 1; i <= 20; i++)
{
for (const auto& value : map->getPropertiesForGID(i).asValueMap())
{
log("GID:%i, Properties:%s, %s", i, value.first.c_str(), value.second.asString().c_str());
}
}
}
std::string TMXTilePropertyTestNew::title() const
{
return "TMX Tile Property Test";
}
std::string TMXTilePropertyTestNew::subtitle() const
{
return "In the console you should see tile properties";
}
//------------------------------------------------------------------
//
// TMXOrthoFlipTestNew
//
//------------------------------------------------------------------
TMXOrthoFlipTestNew::TMXOrthoFlipTestNew()
{
auto map = ax::FastTMXTiledMap::create("TileMaps/ortho-rotation-test.tmx");
addChild(map, 0, kTagTileMap);
Size AX_UNUSED s = map->getContentSize();
log("ContentSize: %f, %f", s.width, s.height);
auto action = ScaleBy::create(2, 0.5f);
map->runAction(action);
}
std::string TMXOrthoFlipTestNew::title() const
{
return "TMX tile flip test";
}
//------------------------------------------------------------------
//
// TMXOrthoFlipRunTimeTestNew
//
//------------------------------------------------------------------
TMXOrthoFlipRunTimeTestNew::TMXOrthoFlipRunTimeTestNew()
{
auto map = ax::FastTMXTiledMap::create("TileMaps/ortho-rotation-test.tmx");
addChild(map, 0, kTagTileMap);
auto s = map->getContentSize();
log("ContentSize: %f, %f", s.width, s.height);
auto action = ScaleBy::create(2, 0.5f);
map->runAction(action);
schedule(AX_SCHEDULE_SELECTOR(TMXOrthoFlipRunTimeTestNew::flipIt), 1.0f);
}
std::string TMXOrthoFlipRunTimeTestNew::title() const
{
return "TMX tile flip run time test";
}
std::string TMXOrthoFlipRunTimeTestNew::subtitle() const
{
return "in 2 sec bottom left tiles will flip";
}
void TMXOrthoFlipRunTimeTestNew::flipIt(float dt)
{
auto map = (ax::FastTMXTiledMap*)getChildByTag(kTagTileMap);
auto layer = map->getLayer("Layer 0");
// blue diamond
auto tileCoord = Vec2(1, 10);
int flags;
unsigned int GID = layer->getTileGIDAt(tileCoord, (TMXTileFlags*)&flags);
// Vertical
if (flags & kTMXTileVerticalFlag)
flags &= ~kTMXTileVerticalFlag;
else
flags |= kTMXTileVerticalFlag;
layer->setTileGID(GID, tileCoord, (TMXTileFlags)flags);
tileCoord = Vec2(1, 8);
GID = layer->getTileGIDAt(tileCoord, (TMXTileFlags*)&flags);
// Vertical
if (flags & kTMXTileVerticalFlag)
flags &= ~kTMXTileVerticalFlag;
else
flags |= kTMXTileVerticalFlag;
layer->setTileGID(GID, tileCoord, (TMXTileFlags)flags);
tileCoord = Vec2(2, 8);
GID = layer->getTileGIDAt(tileCoord, (TMXTileFlags*)&flags);
// Horizontal
if (flags & kTMXTileHorizontalFlag)
flags &= ~kTMXTileHorizontalFlag;
else
flags |= kTMXTileHorizontalFlag;
layer->setTileGID(GID, tileCoord, (TMXTileFlags)flags);
}
//------------------------------------------------------------------
//
// TMXOrthoFromXMLTestNew
//
//------------------------------------------------------------------
TMXOrthoFromXMLTestNew::TMXOrthoFromXMLTestNew()
{
std::string resources = "TileMaps"; // partial paths are OK as resource paths.
std::string file = resources + "/orthogonal-test1.tmx";
auto fileUtils = FileUtils::getInstance();
std::string str = fileUtils->getStringFromFile(fileUtils->fullPathForFilename(file.c_str()));
auto map = ax::FastTMXTiledMap::createWithXML(str, resources.c_str());
addChild(map, 0, kTagTileMap);
auto s = map->getContentSize();
log("ContentSize: %f, %f", s.width, s.height);
auto action = ScaleBy::create(2, 0.5f);
map->runAction(action);
}
std::string TMXOrthoFromXMLTestNew::title() const
{
return "TMX created from XML test";
}
//------------------------------------------------------------------
//
// TMXOrthoXMLFormatTestNew
//
//------------------------------------------------------------------
TMXOrthoXMLFormatTestNew::TMXOrthoXMLFormatTestNew()
{
// this test tests for:
// 1. load xml format tilemap
// 2. gid lower than firstgid is ignored
// 3. firstgid in tsx is ignored, tile property in tsx loaded correctly.
auto map = ax::FastTMXTiledMap::create("TileMaps/xml-test.tmx");
addChild(map, 0, kTagTileMap);
auto s = map->getContentSize();
log("ContentSize: %f, %f", s.width, s.height);
for (int i = 24; i <= 26; i++)
{
log("GID:%i, Properties:%s", i, map->getPropertiesForGID(i).asValueMap()["name"].asString().c_str());
}
auto action = ScaleBy::create(2, 0.5f);
map->runAction(action);
}
std::string TMXOrthoXMLFormatTestNew::title() const
{
return "you should see blue, green and yellow in console.";
}
//------------------------------------------------------------------
//
// TMXBug987New
//
//------------------------------------------------------------------
TMXBug987New::TMXBug987New()
{
auto map = ax::FastTMXTiledMap::create("TileMaps/orthogonal-test6.tmx");
addChild(map, 0, kTagTileMap);
Size AX_UNUSED s1 = map->getContentSize();
AXLOG("ContentSize: %f, %f", s1.width, s1.height);
map->setAnchorPoint(Vec2(0.0f, 0.0f));
auto layer = map->getLayer("Tile Layer 1");
layer->setTileGID(3, Vec2(2, 2));
}
std::string TMXBug987New::title() const
{
return "TMX Bug 987";
}
std::string TMXBug987New::subtitle() const
{
return "You should see a square";
}
//------------------------------------------------------------------
//
// TMXBug787New
//
//------------------------------------------------------------------
TMXBug787New::TMXBug787New()
{
auto map = ax::FastTMXTiledMap::create("TileMaps/iso-test-bug787.tmx");
addChild(map, 0, kTagTileMap);
map->setScale(0.25f);
}
std::string TMXBug787New::title() const
{
return "TMX Bug 787";
}
std::string TMXBug787New::subtitle() const
{
return "You should see a map";
}
//------------------------------------------------------------------
//
// TMXGIDObjectsTestNew
//
//------------------------------------------------------------------
TMXGIDObjectsTestNew::TMXGIDObjectsTestNew()
{
auto map = ax::FastTMXTiledMap::create("TileMaps/test-object-layer.tmx");
addChild(map, -1, kTagTileMap);
Size AX_UNUSED s = map->getContentSize();
AXLOG("Contentsize: %f, %f", s.width, s.height);
AXLOG("----> Iterating over all the group objects");
auto drawNode = DrawNode::create();
Color4F color(1.0, 1.0, 1.0, 1.0);
auto group = map->getObjectGroup("Object Layer 1");
auto objects = group->getObjects();
for (auto&& obj : objects)
{
ValueMap& dict = obj.asValueMap();
float x = dict["x"].asFloat();
float y = dict["y"].asFloat();
float width = dict["width"].asFloat();
float height = dict["height"].asFloat();
drawNode->drawLine(Vec2(x, y), Vec2(x + width, y), color);
drawNode->drawLine(Vec2(x + width, y), Vec2(x + width, y + height), color);
drawNode->drawLine(Vec2(x + width, y + height), Vec2(x, y + height), color);
drawNode->drawLine(Vec2(x, y + height), Vec2(x, y), color);
}
map->addChild(drawNode, 10);
}
std::string TMXGIDObjectsTestNew::title() const
{
return "TMX GID objects";
}
std::string TMXGIDObjectsTestNew::subtitle() const
{
return "Tiles are created from an object group";
}
//------------------------------------------------------------------
//
// TileAnimTestNew
//
//------------------------------------------------------------------
TileAnimTestNew::TileAnimTestNew()
{
map = FastTMXTiledMap::create("TileMaps/tile_animation_test.tmx");
addChild(map, 0, kTagTileMap);
auto listener = EventListenerTouchAllAtOnce::create();
listener->onTouchesBegan = AX_CALLBACK_2(TileAnimTestNew::onTouchBegan, this);
_eventDispatcher->addEventListenerWithSceneGraphPriority(listener, this);
Size AX_UNUSED s = map->getContentSize();
AXLOG("ContentSize: %f, %f", s.width, s.height);
map->setTileAnimEnabled(_animStarted);
}
std::string TileAnimTestNew::title() const
{
return "Tile animation test.\nClick to toggle the animation";
}
void TileAnimTestNew::onTouchBegan(const std::vector<ax::Touch*>& touches, ax::Event* event)
{
_animStarted = !_animStarted;
map->setTileAnimEnabled(_animStarted);
}
//------------------------------------------------------------------
//
// TileAnimTestNew2
//
//------------------------------------------------------------------
TileAnimTestNew2::TileAnimTestNew2()
{
map = FastTMXTiledMap::create("TileMaps/tile_animation_test_2.tmx");
addChild(map, 0, kTagTileMap);
auto listener = EventListenerTouchAllAtOnce::create();
listener->onTouchesBegan = AX_CALLBACK_2(TileAnimTestNew2::onTouchBegan, this);
_eventDispatcher->addEventListenerWithSceneGraphPriority(listener, this);
Size AX_UNUSED s = map->getContentSize();
AXLOG("ContentSize: %f, %f", s.width, s.height);
map->setTileAnimEnabled(_animStarted);
}
std::string TileAnimTestNew2::title() const
{
return "Tile animation test with flipped/rotated.\nClick to toggle the animation";
}
void TileAnimTestNew2::onTouchBegan(const std::vector<ax::Touch*>& touches, ax::Event* event)
{
_animStarted = !_animStarted;
map->setTileAnimEnabled(_animStarted);
}