axmol/tests/cpp-tests/Classes/TileMapTest/TileMapTest.cpp

1572 lines
42 KiB
C++

#include "TileMapTest.h"
#include "../testResource.h"
#include "renderer/CCRenderer.h"
#include "renderer/CCCustomCommand.h"
enum
{
kTagTileMap = 1,
};
Layer* nextTileMapAction();
Layer* backTileMapAction();
Layer* restartTileMapAction();
//------------------------------------------------------------------
//
// TileDemo
//
//------------------------------------------------------------------
enum
{
IDC_NEXT = 100,
IDC_BACK,
IDC_RESTART
};
static int sceneIdx = -1;
#define MAX_LAYER 29
static std::function<Layer*()> createFunctions[] = {
CLN(TMXIsoZorder),
CLN(TMXOrthoZorder),
CLN(TMXIsoVertexZ),
CLN(TMXOrthoVertexZ),
CLN(TMXOrthoTest),
CLN(TMXOrthoTest2),
CLN(TMXOrthoTest3),
CLN(TMXOrthoTest4),
CLN(TMXIsoTest),
CLN(TMXIsoTest1),
CLN(TMXIsoTest2),
CLN(TMXUncompressedTest),
CLN(TMXHexTest),
CLN(TMXReadWriteTest),
CLN(TMXTilesetTest),
CLN(TMXOrthoObjectsTest),
CLN(TMXIsoObjectsTest),
CLN(TMXResizeTest),
CLN(TMXIsoMoveLayer),
CLN(TMXOrthoMoveLayer),
CLN(TMXOrthoFlipTest),
CLN(TMXOrthoFlipRunTimeTest),
CLN(TMXOrthoFromXMLTest),
CLN(TMXOrthoXMLFormatTest),
CLN(TileMapTest),
CLN(TileMapEditTest),
CLN(TMXBug987),
CLN(TMXBug787),
CLN(TMXGIDObjectsTest),
};
Layer* createTileMalayer(int nIndex)
{
return createFunctions[nIndex]();
}
Layer* nextTileMapAction()
{
sceneIdx++;
sceneIdx = sceneIdx % MAX_LAYER;
return createTileMalayer(sceneIdx);
}
Layer* backTileMapAction()
{
sceneIdx--;
int total = MAX_LAYER;
if( sceneIdx < 0 )
sceneIdx += total;
return createTileMalayer(sceneIdx);
}
Layer* restartTileMapAction()
{
return createTileMalayer(sceneIdx);
}
TileDemo::TileDemo(void)
: BaseTest()
{
auto listener = EventListenerTouchAllAtOnce::create();
listener->onTouchesMoved = CC_CALLBACK_2(TileDemo::onTouchesMoved, this);
_eventDispatcher->addEventListenerWithSceneGraphPriority(listener, this);
}
TileDemo::~TileDemo(void)
{
}
std::string TileDemo::title() const
{
return "No title";
}
std::string TileDemo::subtitle() const
{
return "drag the screen";
}
void TileDemo::onEnter()
{
BaseTest::onEnter();
}
void TileDemo::onExit()
{
BaseTest::onExit();
Director::getInstance()->setDepthTest(false);
}
void TileDemo::restartCallback(Ref* sender)
{
auto s = new TileMapTestScene();
s->addChild(restartTileMapAction());
Director::getInstance()->replaceScene(s);
s->release();
}
void TileDemo::nextCallback(Ref* sender)
{
auto s = new TileMapTestScene();
s->addChild( nextTileMapAction() );
Director::getInstance()->replaceScene(s);
s->release();
}
void TileDemo::backCallback(Ref* sender)
{
auto s = new TileMapTestScene();
s->addChild( backTileMapAction() );
Director::getInstance()->replaceScene(s);
s->release();
}
void TileDemo::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);
}
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);
}
//------------------------------------------------------------------
//
// 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() const
{
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() const
{
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 scale = ScaleBy::create(10, 0.1f);
auto back = scale->reverse();
auto seq = Sequence::create(scale, back, NULL);
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 TMXOrthoTest::onEnter()
{
TileDemo::onEnter();
Director::getInstance()->setProjection(Director::Projection::_3D);
}
void TMXOrthoTest::onExit()
{
Director::getInstance()->setProjection(Director::Projection::DEFAULT);
TileDemo::onExit();
}
std::string TMXOrthoTest::title() const
{
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& children = map->getChildren();
SpriteBatchNode* child = NULL;
for(const auto &obj : children) {
child = static_cast<SpriteBatchNode*>(obj);
child->getTexture()->setAntiAliasTexParameters();
}
map->runAction( ScaleBy::create(2, 0.5f) ) ;
}
std::string TMXOrthoTest2::title() const
{
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& children = map->getChildren();
SpriteBatchNode* child = NULL;
for(const auto &node : children) {
child = static_cast<SpriteBatchNode*>(node);
child->getTexture()->setAntiAliasTexParameters();
}
map->setScale(0.2f);
map->setAnchorPoint( Point(0.5f, 0.5f) );
}
std::string TMXOrthoTest3::title() const
{
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);
SpriteBatchNode* child = nullptr;
auto& children = map->getChildren();
for(const auto &node : children) {
child = static_cast<SpriteBatchNode*>(node);
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<TMXTiledMap*>( getChildByTag(kTagTileMap) );
auto layer = map->getLayer("Layer 0");
auto s = layer->getLayerSize();
auto sprite = layer->getTileAt( Point(s.width-1,0) );
auto sprite2 = layer->getTileAt(Point(s.width-1, s.height-1));
layer->removeChild(sprite, true);
auto sprite3 = layer->getTileAt(Point(2, s.height-1));
layer->removeChild(sprite3, true);
layer->removeChild(sprite2, true);
}
std::string TMXOrthoTest4::title() const
{
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; x<s.width;x++)
{
int y = (int)s.height-1;
unsigned int tmpgid = layer->getTileGIDAt( 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() const
{
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() const
{
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() const
{
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() const
{
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() const
{
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
TMXLayer* layer;
auto& children = map->getChildren();
for(const auto &node : children) {
layer= static_cast<TMXLayer*>(node);
layer->releaseMap();
}
}
std::string TMXUncompressedTest::title() const
{
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() const
{
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);
auto group = map->getObjectGroup("Object Group 1");
auto& objects = group->getObjects();
Value objectsVal = Value(objects);
CCLOG("%s", objectsVal.getDescription().c_str());
}
void TMXOrthoObjectsTest::draw(Renderer *renderer, const kmMat4 &transform, bool transformUpdated)
{
_renderCmd.init(_globalZOrder);
_renderCmd.func = CC_CALLBACK_0(TMXOrthoObjectsTest::onDraw, this, transform, transformUpdated);
renderer->addCommand(&_renderCmd);
}
void TMXOrthoObjectsTest::onDraw(const kmMat4 &transform, bool transformUpdated)
{
kmGLPushMatrix();
kmGLLoadMatrix(&transform);
auto map = static_cast<TMXTiledMap*>( getChildByTag(kTagTileMap) );
auto pos = map->getPosition();
auto group = map->getObjectGroup("Object Group 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();
glLineWidth(3);
DrawPrimitives::drawLine( pos + Point(x, y), pos + Point((x+width), y) );
DrawPrimitives::drawLine( pos + Point((x+width), y), pos + Point((x+width), (y+height)) );
DrawPrimitives::drawLine( pos + Point((x+width), (y+height)), pos + Point(x, (y+height)) );
DrawPrimitives::drawLine( pos + Point(x, (y+height)), pos + Point(x, y) );
glLineWidth(1);
}
kmGLPopMatrix();
}
std::string TMXOrthoObjectsTest::title() const
{
return "TMX Ortho object test";
}
std::string TMXOrthoObjectsTest::subtitle() const
{
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->getObjects();
Value objectsVal = Value(objects);
CCLOG("%s", objectsVal.getDescription().c_str());
}
void TMXIsoObjectsTest::draw(Renderer *renderer, const kmMat4 &transform, bool transformUpdated)
{
_renderCmd.init(_globalZOrder);
_renderCmd.func = CC_CALLBACK_0(TMXIsoObjectsTest::onDraw, this, transform, transformUpdated);
renderer->addCommand(&_renderCmd);
}
void TMXIsoObjectsTest::onDraw(const kmMat4 &transform, bool transformUpdated)
{
kmGLPushMatrix();
kmGLLoadMatrix(&transform);
auto map = (TMXTiledMap*) getChildByTag(kTagTileMap);
auto pos = map->getPosition();
auto group = map->getObjectGroup("Object Group 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();
glLineWidth(3);
DrawPrimitives::drawLine( pos + Point(x,y), pos + Point(x+width,y) );
DrawPrimitives::drawLine( pos + Point(x+width,y), pos + Point(x+width,y+height) );
DrawPrimitives::drawLine( pos + Point(x+width,y+height), pos + Point(x,y+height) );
DrawPrimitives::drawLine( pos + Point(x,y+height), pos + Point(x,y) );
glLineWidth(1);
}
kmGLPopMatrix();
}
std::string TMXIsoObjectsTest::title() const
{
return "TMX Iso object test";
}
std::string TMXIsoObjectsTest::subtitle() const
{
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() const
{
return "TMX resize test";
}
std::string TMXResizeTest::subtitle() const
{
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, (int)map->getChildren().size() );
_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 = std::max(newZ,0);
map->reorderChild(_tamara, newZ);
}
std::string TMXIsoZorder::title() const
{
return "TMX Iso Zorder";
}
std::string TMXIsoZorder::subtitle() const
{
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, (int)map->getChildren().size());
_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 = std::max(newZ,0);
map->reorderChild(_tamara, newZ);
}
std::string TMXOrthoZorder::title() const
{
return "TMX Ortho Zorder";
}
std::string TMXOrthoZorder::subtitle() const
{
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->setPositionZ( newZ );
}
void TMXIsoVertexZ::onEnter()
{
TileDemo::onEnter();
// TIP: 2d projection should be used
Director::getInstance()->setProjection(Director::Projection::_2D);
Director::getInstance()->setDepthTest(true);
}
void TMXIsoVertexZ::onExit()
{
// At exit use any other projection.
Director::getInstance()->setProjection(Director::Projection::DEFAULT);
Director::getInstance()->setDepthTest(false);
TileDemo::onExit();
}
std::string TMXIsoVertexZ::title() const
{
return "TMX Iso VertexZ";
}
std::string TMXIsoVertexZ::subtitle() const
{
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->getPositionZ());
_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->setPositionZ( -( (p.y+81) /81) );
}
void TMXOrthoVertexZ::onEnter()
{
TileDemo::onEnter();
// TIP: 2d projection should be used
Director::getInstance()->setProjection(Director::Projection::_2D);
Director::getInstance()->setDepthTest(true);
}
void TMXOrthoVertexZ::onExit()
{
// At exit use any other projection.
Director::getInstance()->setProjection(Director::Projection::DEFAULT);
Director::getInstance()->setDepthTest(false);
TileDemo::onExit();
}
std::string TMXOrthoVertexZ::title() const
{
return "TMX Ortho vertexZ";
}
std::string TMXOrthoVertexZ::subtitle() const
{
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() const
{
return "TMX Iso Move Layer";
}
std::string TMXIsoMoveLayer::subtitle() const
{
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() const
{
return "TMX Ortho Move Layer";
}
std::string TMXOrthoMoveLayer::subtitle() const
{
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++){
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 TMXTilePropertyTest::title() const
{
return "TMX Tile Property Test";
}
std::string TMXTilePropertyTest::subtitle() const
{
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);
auto& children = map->getChildren();
for(const auto &node : children) {
auto child = static_cast<SpriteBatchNode*>(node);
child->getTexture()->setAntiAliasTexParameters();
}
auto action = ScaleBy::create(2, 0.5f);
map->runAction(action);
}
std::string TMXOrthoFlipTest::title() const
{
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);
auto& children = map->getChildren();
for(const auto &node : children) {
auto child = static_cast<SpriteBatchNode*>(node);
child->getTexture()->setAntiAliasTexParameters();
}
auto action = ScaleBy::create(2, 0.5f);
map->runAction(action);
schedule(schedule_selector(TMXOrthoFlipRunTimeTest::flipIt), 1.0f);
}
std::string TMXOrthoFlipRunTimeTest::title() const
{
return "TMX tile flip run time test";
}
std::string TMXOrthoFlipRunTimeTest::subtitle() const
{
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, (TMXTileFlags*)&flags);
// Vertical
if( flags & kTMXTileVerticalFlag )
flags &= ~kTMXTileVerticalFlag;
else
flags |= kTMXTileVerticalFlag;
layer->setTileGID(GID ,tileCoord, (TMXTileFlags)flags);
tileCoord = Point(1,8);
GID = layer->getTileGIDAt(tileCoord, (TMXTileFlags*)&flags);
// Vertical
if( flags & kTMXTileVerticalFlag )
flags &= ~kTMXTileVerticalFlag;
else
flags |= kTMXTileVerticalFlag;
layer->setTileGID(GID ,tileCoord, (TMXTileFlags)flags);
tileCoord = Point(2,8);
GID = layer->getTileGIDAt(tileCoord, (TMXTileFlags*)&flags);
// Horizontal
if( flags & kTMXTileHorizontalFlag )
flags &= ~kTMXTileHorizontalFlag;
else
flags |= kTMXTileHorizontalFlag;
layer->setTileGID(GID, tileCoord, (TMXTileFlags)flags);
}
//------------------------------------------------------------------
//
// TMXOrthoFromXMLTest
//
//------------------------------------------------------------------
TMXOrthoFromXMLTest::TMXOrthoFromXMLTest()
{
std::string resources = "TileMaps"; // partial paths are OK as resource paths.
std::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);
auto& children = map->getChildren();
for(const auto &node : children) {
auto child = static_cast<SpriteBatchNode*>(node);
child->getTexture()->setAntiAliasTexParameters();
}
auto action = ScaleBy::create(2, 0.5f);
map->runAction(action);
}
std::string TMXOrthoFromXMLTest::title() const
{
return "TMX created from XML test";
}
//------------------------------------------------------------------
//
// TMXOrthoXMLFormatTest
//
//------------------------------------------------------------------
TMXOrthoXMLFormatTest::TMXOrthoXMLFormatTest()
{
// 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 = TMXTiledMap::create("TileMaps/xml-test.tmx");
addChild(map, 0, kTagTileMap);
auto s = map->getContentSize();
log("ContentSize: %f, %f", s.width,s.height);
auto& children = map->getChildren();
for(const auto &node : children) {
auto child = static_cast<SpriteBatchNode*>(node);
child->getTexture()->setAntiAliasTexParameters();
}
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 TMXOrthoXMLFormatTest::title() const
{
return "you should see blue, green and yellow in console.";
}
//------------------------------------------------------------------
//
// 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& children = map->getChildren();
for(const auto &child : children) {
auto node = static_cast<TMXLayer*>(child);
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() const
{
return "TMX Bug 987";
}
std::string TMXBug987::subtitle() const
{
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() const
{
return "TMX Bug 787";
}
std::string TMXBug787::subtitle() const
{
return "You should see a map";
}
//------------------------------------------------------------------
//
// TMXGIDObjectsTest
//
//------------------------------------------------------------------
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(Renderer *renderer, const kmMat4 &transform, bool transformUpdated)
{
_renderCmd.init(_globalZOrder);
_renderCmd.func = CC_CALLBACK_0(TMXGIDObjectsTest::onDraw, this, transform, transformUpdated);
renderer->addCommand(&_renderCmd);
}
void TMXGIDObjectsTest::onDraw(const kmMat4 &transform, bool transformUpdated)
{
kmGLPushMatrix();
kmGLLoadMatrix(&transform);
auto map = (TMXTiledMap*)getChildByTag(kTagTileMap);
auto pos = map->getPosition();
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();
glLineWidth(3);
DrawPrimitives::drawLine(pos + Point(x, y), pos + Point(x + width, y));
DrawPrimitives::drawLine(pos + Point(x + width, y), pos + Point(x + width, y + height));
DrawPrimitives::drawLine(pos + Point(x + width,y + height), pos + Point(x,y + height));
DrawPrimitives::drawLine(pos + Point(x,y + height), pos + Point(x,y));
glLineWidth(1);
}
kmGLPopMatrix();
}
std::string TMXGIDObjectsTest::title() const
{
return "TMX GID objects";
}
std::string TMXGIDObjectsTest::subtitle() const
{
return "Tiles are created from an object group";
}