SeasonI/test/test.cpp

#include "../entity.h"
#include "../item.h"
#include "../layers.h"
#include <string>
#define OLC_PGE_APPLICATION
#include "../pixelGameEngine.h"
#define OLC_PGEX_SPLASHSCREEN
#include "../splash.h"
#define OLC_SOUNDWAVE
#include "../defines.h"
#include "../soundwaveEngine.h"
#include "../tiles.h"
#include "../references.h"
#include "../states.h"
#include "../flags.h"
#include <assert.h>
#include "../cutscene.h"
#include "../encounters.h"
#include "../particle.h"
#include "../effect.h"
#include "../battleproperty.h"
#include "test.h"
#include "../SeasonI.h"
#include "../map.h"

#define TestWhileMax(testname,condition,maxIterations) _TestWait(testname);while(_TestResolve(condition,maxIterations))
#define TestWhile(testname,condition) TestWhileMax(testname,condition,1000)

extern int frameCount;
extern double CUTSCENE_FADE_VALUE;
extern Cutscene*CurrentCutscene;
extern ActionType CurrentAction;
extern vd2d cameraPos;
extern bool messageBoxVisible;
extern std::string messageBoxText;
extern std::array<Entity*,7> PARTY_MEMBER_STATS;
extern Entity::pstats_t partyMemberDefaultStats;
extern std::map<std::string,Decal*> SPRITES;
extern std::map<std::string,Animation*> ANIMATIONS;
extern std::array<NPC_Obj*,4> PARTY_MEMBER_OBJ;
extern std::map<int,Object*> OBJ_INFO;
extern std::map<BattleMoveName,Battle::Move*>MOVELIST;
extern std::vector<Encounter*>ENCOUNTER_LIST;
extern std::map<Property,BattleProperty*> BATTLE_PROPERTIES;
extern std::map<MapName::Map,Map*> MAPS;
extern std::vector<CutsceneAction*>CUTSCENE_QUEUE;
extern std::vector<std::vector<TILE*>> MAP;
extern std::vector<std::vector<TILE*>> MAP2;
extern std::vector<std::vector<TILE*>> MAP3;
extern std::vector<std::vector<TILE*>> MAP4;
extern std::vector<std::vector<TILE*>> MAP5;
extern std::vector<std::vector<TILE*>> MAP6;

int testCount=0;
int MAX_ITERATIONS=1000;
int iterations=0;

enum class KeyIdentifier{
	UP,
	RIGHT,
	DOWN,
	LEFT,
	BACK,
};

struct TestKey{
	Key k;
	std::string keyName;
	KeyIdentifier id;
	bool operator==(TestKey&other){
		return id==other.id;
	}
};

namespace key{
	TestKey UP{Key::UP,"UP",KeyIdentifier::UP};
	TestKey DOWN{Key::DOWN,"DOWN",KeyIdentifier::DOWN};
	TestKey LEFT{Key::LEFT,"LEFT",KeyIdentifier::LEFT};
	TestKey RIGHT{Key::RIGHT,"RIGHT",KeyIdentifier::RIGHT};
	TestKey BACK{Key::BACK,"BACKSPACE",KeyIdentifier::BACK};
	TestKey ESCAPE{Key::ESCAPE,"ESCAPE",KeyIdentifier::BACK};
	TestKey X{Key::X,"X",KeyIdentifier::BACK};
	TestKey CTRL{Key::CTRL,"CTRL",KeyIdentifier::BACK};
	TestKey DEL{Key::DEL,"DEL",KeyIdentifier::BACK};
	TestKey END{Key::END,"END",KeyIdentifier::BACK};
	TestKey NP_DECIMAL{Key::NP_DECIMAL,"Numpad Decimal",KeyIdentifier::BACK};
	TestKey NP_SUB{Key::NP_SUB,"Numpad Subtract",KeyIdentifier::BACK};
	TestKey MINUS{Key::MINUS,"MINUS",KeyIdentifier::BACK};
	TestKey PAUSE{Key::PAUSE,"PAUSE",KeyIdentifier::BACK};
	TestKey TAB{Key::TAB,"TAB",KeyIdentifier::BACK};
	TestKey CAPS_LOCK{Key::CAPS_LOCK,"CAPS LOCK",KeyIdentifier::BACK};
	TestKey W{Key::W,"W",KeyIdentifier::UP};
	TestKey A{Key::A,"A",KeyIdentifier::LEFT};
	TestKey S{Key::S,"S",KeyIdentifier::DOWN};
	TestKey D{Key::D,"D",KeyIdentifier::RIGHT};
	TestKey NP8{Key::NP8,"NP8",KeyIdentifier::UP};
	TestKey NP4{Key::NP4,"NP4",KeyIdentifier::LEFT};
	TestKey NP5{Key::NP5,"NP5",KeyIdentifier::DOWN};
	TestKey NP6{Key::NP6,"NP6",KeyIdentifier::RIGHT};
	TestKey NP2{Key::NP2,"NP2",KeyIdentifier::DOWN};
}

void CopyMapContents(std::vector<std::vector<TILE*>>&from,std::vector<std::vector<TILE>>&to) {
	for (int x=0;x<from.size();x++) {
		std::vector<TILE> tiles;
		for (int y=0;y<from[x].size();y++) {
			tiles.push_back(TILE(from[x][y]->tileX,from[x][y]->tileY,from[x][y]->tileDegree));
		}
		to.push_back(tiles);
	}
}

bool ValidateEntireMap(std::vector<std::vector<TILE*>>&mapref1,std::vector<std::vector<TILE>>&mapref2) {
	for (int x=0;x<mapref1.size();x++) {
		for (int y=0;y<mapref1[x].size();y++) {
			if (mapref2[x][y]!=mapref1[x][y]) {
				return false;
			}
		}
	}
	return true;
}

bool GetKeyPressed(SeasonI&instance,TestKey&k) {
	if (k==key::UP) {
		return instance.UpPressed();
	}
	if (k==key::DOWN) {
		return instance.DownPressed();
	}
	if (k==key::RIGHT) {
		return instance.RightPressed();
	}
	if (k==key::LEFT) {
		return instance.LeftPressed();
	}
	if (k==key::BACK) {
		return instance.BackPressed();
	}
	std::cerr<<"Something went terribly wrong! THIS SHOULD NOT BE HAPPENING!\n";
	return false;
}

bool GetKeyHeld(SeasonI&instance,TestKey&k) {
	if (k==key::UP) {
		return instance.UpHeld();
	}
	if (k==key::DOWN) {
		return instance.DownHeld();
	}
	if (k==key::RIGHT) {
		return instance.RightHeld();
	}
	if (k==key::LEFT) {
		return instance.LeftHeld();
	}
	if (k==key::BACK) {
		return instance.BackHeld();
	}
	std::cerr<<"Something went terribly wrong! THIS SHOULD NOT BE HAPPENING!\n";
	return false;
}

bool GetKeyReleased(SeasonI&instance,TestKey&k) {
	if (k==key::UP) {
		return instance.UpReleased();
	}
	if (k==key::DOWN) {
		return instance.DownReleased();
	}
	if (k==key::RIGHT) {
		return instance.RightReleased();
	}
	if (k==key::LEFT) {
		return instance.LeftReleased();
	}
	if (k==key::BACK) {
		return instance.BackReleased();
	}
	std::cerr<<"Something went terribly wrong! THIS SHOULD NOT BE HAPPENING!\n";
	return false;
}

void Test(std::string name,bool success) {
	testCount++;
	std::cout<<"Test ("<<testCount<<") "<<name<<"..."<<std::endl;
	assert(success);
	std::cout<<"  Passed"<<std::endl;
};

void _TestWait(std::string name) {
	testCount++;
	std::cout<<"Test ("<<testCount<<") "<<name<<"..."<<std::endl;
	iterations=0;
};

bool _TestResolve(bool testCase,int maxIterations=MAX_ITERATIONS) {
	if (!testCase) {
		std::cout<<"  Passed"<<std::endl;
		return false;
	}
	if (iterations++>MAX_ITERATIONS) {
		std::cout<<"  FAILED! (Iterations>"<<maxIterations<<")"<<std::endl;
		assert(!testCase);
	}
	return true;
};

void TestSpriteUndefined(std::vector<std::string> sprList) {
	for (int i=0;i<sprList.size();i++) {
		Test("Sprite "+sprList[i]+" should not be initialized",
			SPRITES[sprList[i]]==nullptr);
	}
}
void TestSpriteInitialized(std::vector<std::string> sprList) {
	for (int i=0;i<sprList.size();i++) {
		Test("Sprite "+sprList[i]+" should be initialized",
			SPRITES[sprList[i]]!=nullptr);
		Test("Sprite "+sprList[i]+" should have a non-zero width and height",
				SPRITES[sprList[i]]->sprite->width!=0&&SPRITES[sprList[i]]->sprite->height!=0);
	}
}

bool SeasonI::OnUserCreate(){
	srand(time(NULL));
	GAME=this;
	for (int i=1;i<7;i++) {
		CreateLayer();
		EnableLayer(i,true);
	}
	SetPixelMode(Pixel::ALPHA);
	GAME_STATE=GameState::TEST_GAME;
	Test("We start in the TEST_GAME state",
		GAME_STATE==GameState::TEST_GAME);
	for (int i=0;i<PARTY_MEMBER_STATS.size();i++) {
		Test("Party Member stats should not be initialized",
			PARTY_MEMBER_STATS[i]==nullptr);
	}
	Test("No battle moves are loaded",
		MOVELIST.size()==0);
	SetupPartyMemberStats();
	Test("Battle moves now exist (still not defined)",
		MOVELIST.size()>0);
	for (int i=0;i<PARTY_MEMBER_STATS.size();i++) {
		Test("Party Members get initialized with correct defaults",
			PARTY_MEMBER_STATS[i]->stats==partyMemberDefaultStats);
	}
	TestSpriteUndefined({"terrainmap.png","pixel.png","bufficons.png","rollingcounter.png","additionalFont.png"});
	SetupAnimations();
	TestSpriteInitialized({"terrainmap.png","pixel.png","bufficons.png","rollingcounter.png","additionalFont.png"});
	Test("Player animation is undefined",
		ANIMATIONS.count("player.png")==0);
	Test("Party Member Object is not setup",
		PARTY_MEMBER_OBJ[0]==nullptr);
	vd2d testPos={0,0},testScale={2,2};
	CreateObjectInfo(new Standard_Obj(PLAYER,"player",testPos,nullptr,testScale,MAGENTA,32),"player.png",{24,32});
	Test("Player animation is defined",
		ANIMATIONS["player.png"]!=nullptr);
	Decal*playerAnimPointer=ANIMATIONS["player.png"]->spr;
	Test("Player animation is setup correctly",
		ANIMATIONS["player.png"]->frames>0&&ANIMATIONS["player.png"]->spr!=nullptr);
	Test("Object Info database now has 1 entry",
		OBJ_INFO.size()==1);
	Test("Object Info is correctly assigned",
		OBJ_INFO[0]->name=="player"&&OBJ_INFO[0]->id==PLAYER&&OBJ_INFO[0]->GetPos()==testPos&&OBJ_INFO[0]->GetScale()==testScale&&OBJ_INFO[0]->color==MAGENTA&&OBJ_INFO[0]->spr->sprSize.x==24&&OBJ_INFO[0]->spr->sprSize.y==32);
	delete OBJ_INFO[PLAYER];
	OBJ_INFO.erase(PLAYER);
	Test("Object Info is cleared",
		OBJ_INFO.size()==0);
	SetupObjectInfo();
	Test("Using the same sprite definition does not cause memory leak",
		playerAnimPointer==OBJ_INFO[0]->spr->spr);
	Test("No encounters are loaded",
		ENCOUNTER_LIST.size()==0);
	SetupEncounters();
	Test("SetupEncounters() loads up new encounters",
		ENCOUNTER_LIST.size()>0);
	Encounter*testEncounter=new Encounter(encounter::ENCOUNTER_1,{0,0},std::array<vd2d,4>{vd2d
		{grid(1,2)},{grid(2,2)},{grid(3,2)},{grid(4,2)}},
		std::vector<Entity*>{
			new Entity(new Standard_Obj(
				NPC1_4,"Test Obj",3,2,ANIMATIONS["player.png"]),
				{HP:70,maxHP:70,PP:10,maxPP:10,baseAtk:14,speed:5,resistances:{0,0,0,0}},std::vector<Battle::Move*>{
				MOVELIST[BattleMoveName::TESTMOVE1],
				MOVELIST[BattleMoveName::TESTMOVE2],
				MOVELIST[BattleMoveName::TESTMOVE3],
			},
			{ITEMLIST[ItemName::COOKIE]},
			돈 20),
			new Entity(new Standard_Obj(
				NPC1_4,"Test Obj 2",1,3,ANIMATIONS["player.png"]),
				{HP:70,maxHP:70,PP:10,maxPP:10,baseAtk:14,speed:5,resistances:{0,0,0,0}},std::vector<Battle::Move*>{
				MOVELIST[BattleMoveName::TESTMOVE1],
				MOVELIST[BattleMoveName::TESTMOVE2],
			},
			{ITEMLIST[ItemName::PIZZA]}),
			new Entity(new Standard_Obj(
				NPC1_4,"Test Obj 3",2,2,ANIMATIONS["player.png"]),
				{HP:70,maxHP:70,PP:10,maxPP:10,baseAtk:14,speed:5,resistances:{0,0,0,0}},std::vector<Battle::Move*>{
				MOVELIST[BattleMoveName::TESTMOVE1],
			}),
		});
	Test("Test encounter has three entities",
		testEncounter->objs.size()==3);
	Test("Test encounter uses ID ENCOUNTER_1",
		testEncounter->id==encounter::ENCOUNTER_1);
	testPos={0,0};
	Test("Test encounter uses position ("+std::to_string(testPos.x)+","+std::to_string(testPos.y)+")",
		testEncounter->pos==testPos);
	Test("Test encounter player positions are correct",
		testEncounter->playerPos==std::array<vd2d,4>{vd2d{grid(1,2)},{grid(2,2)},{grid(3,2)},{grid(4,2)}});
	Test("Test encounter grid positions are correct",
		testEncounter->playerPos==std::array<vd2d,4>{vd2d{grid(1,2)},{grid(2,2)},{grid(3,2)},{grid(4,2)}});
	Test("Enemy 1 has 3 battle moves",
		testEncounter->objs[0]->moveSet==std::vector<Battle::Move*>{
				MOVELIST[BattleMoveName::TESTMOVE1],
				MOVELIST[BattleMoveName::TESTMOVE2],
				MOVELIST[BattleMoveName::TESTMOVE3],
			});
	Test("Enemy 1 has a cookie as a drop",
		testEncounter->objs[0]->inventory==std::vector<Item*>{ITEMLIST[ItemName::COOKIE]});
	Test("Enemy 1 gives 20 money.",
		testEncounter->objs[0]->money==20);
	Test("Enemy 2 has 2 battle moves.",
		testEncounter->objs[1]->moveSet==std::vector<Battle::Move*>{
				MOVELIST[BattleMoveName::TESTMOVE1],
				MOVELIST[BattleMoveName::TESTMOVE2],
			});
	Test("Enemy 2 has a pizza as a drop",
		testEncounter->objs[1]->inventory==std::vector<Item*>{ITEMLIST[ItemName::PIZZA]});
	Test("Enemy 2 gives 0 money.",
		testEncounter->objs[1]->money==0);
	Test("Enemy 3 has 1 battle move.",
		testEncounter->objs[2]->moveSet==std::vector<Battle::Move*>{
				MOVELIST[BattleMoveName::TESTMOVE1],
			});
	Test("Enemy 3 has no items to drop",
		testEncounter->objs[2]->inventory==std::vector<Item*>{});
	Test("Enemy 3 gives 0 money.",
		testEncounter->objs[2]->money==0);
	Test("There are no battle properties",
		BATTLE_PROPERTIES.size()==0);
	SetupBattleProperties();
	Test("Battle Properties populated",
		BATTLE_PROPERTIES.size()>0);
	Test("Test Move 1 exists in the map.",
		MOVELIST.count(BattleMoveName::TESTMOVE1));
	Test("Test Move 1 is undefined",
		MOVELIST[BattleMoveName::TESTMOVE1]==nullptr);
	MOVELIST[BattleMoveName::TESTMOVE1]=SetupMove(TESTMOVE1)"Test Move 1","An attack",baseDmg:30,randomDmg:5,range:6,channelTime:27,friendly:false};
	Test("Verify Test Move 1's now set properly",
		MOVELIST[BattleMoveName::TESTMOVE1]!=nullptr);
	Test("Verify Test Move 1's Power Name shows up correctly",
		MOVELIST[BattleMoveName::TESTMOVE1]->GetPowerName()=="Test Move 1");
	MOVELIST[BattleMoveName::TESTMOVE1]->grade=GAMMA;
	Test("Verify Test Move 1's Power Name shows up correctly with a grade",
		MOVELIST[BattleMoveName::TESTMOVE1]->GetPowerName()=="Test Move 1 "+std::string(1,(char)GAMMA));
	Test("Cookie is undefined",
		ITEMLIST[ItemName::COOKIE]==nullptr);
	SetupItemList();
	Test("Cookie is defined",
		ITEMLIST[ItemName::COOKIE]!=nullptr);
	delete ITEMLIST[ItemName::COOKIE];
	ITEMLIST.erase(ItemName::COOKIE);
	ITEMLIST[ItemName::COOKIE]=SetupItem(COOKIE)"Cookie","A delightful little treat. Restores 40 HP.",2,{hpRecovery:40,consumable:Consumable::FRIENDLY,sellPrice:2});
	Test("Cookie name is set properly",
		ITEMLIST[ItemName::COOKIE]->name=="Cookie");
	Test("Cookie description is set properly",
		ITEMLIST[ItemName::COOKIE]->description=="A delightful little treat. Restores 40 HP.");
	Test("Cookie drop chance is set properly",
		ITEMLIST[ItemName::COOKIE]->dropChance==2);
	delete ITEMLIST[ItemName::FREEZE_PACKET];
	ITEMLIST.erase(ItemName::FREEZE_PACKET);
	ITEMLIST[ItemName::FREEZE_PACKET]=SetupItem(FREEZE_PACKET)"Freeze Packet","Lets out some blistering cold weather.",256,{consumable:Consumable::ENEMY,sellPrice:36},MOVELIST[BattleMoveName::FREEZE_PACKET]);
	Test("Freeze Packet name is set properly",
		ITEMLIST[ItemName::FREEZE_PACKET]->name=="Freeze Packet");
	Test("Freeze Packet description is set properly",
		ITEMLIST[ItemName::FREEZE_PACKET]->description=="Lets out some blistering cold weather.");
	Test("Freeze Packet drop chance is set properly",
		ITEMLIST[ItemName::FREEZE_PACKET]->dropChance==256);
	Test("No Maps are loaded",
		MAPS.size()==0);
	SetupMapList();
	Test("Maps are loaded",
		MAPS.size()!=0);
	Test("No Cutscenes are loaded",
		CUTSCENES.size()==0);
	SetupCutscenes();
	Test("Calling SetupCutscenes() loads up different cutscenes",
		CUTSCENES.size()!=0);
	Test("No active cutscene yet",
		CurrentCutscene==nullptr);
	StartCutscene(CUTSCENES[CutsceneName::TEST_CUTSCENE]);
	Test("Starting a cutscene sets the current cutscene",
		CurrentCutscene!=nullptr);
	Test("Current Action should not be updated yet",
		CurrentAction==ActionType::NONE);
	OnUserUpdate(1/60.f);
	Test("HandleCutscenes should get called in updateGame(), updating the current action",
		CurrentAction!=ActionType::NONE);
	int startFrame=frameCount;
	TestWhile("Cutscene should complete entirely",CurrentAction!=ActionType::NONE) {
		OnUserUpdate(1/60.f);
	}
	std::cout<<"Frame Count: "<<(frameCount-startFrame)<<std::endl;
	Test("Cutscene is now finished",
		CurrentAction==ActionType::NONE);
	Test("Test Flag 1 is set",
		GetGameFlag(Flag::TEST_FLAG1));
	Test("Test Flag 2 is not set",
		!GetGameFlag(Flag::TEST_FLAG2));
	Test("Test Flag 1 (int cast) is still set",
		GetGameFlag((int)Flag::TEST_FLAG1));
	Test("Test Flag 2 (int cast) is still not set",
		!GetGameFlag((int)Flag::TEST_FLAG2));
	Test("Test Flag 1 (Flag cast) is still set",
		GetGameFlag((Flag)1));
	Test("Test Flag 2 (Flag cast) is still not set",
		!GetGameFlag((Flag)2));
	Test("Current Map is not set",
		CURRENT_MAP==nullptr);
	Test("Main Character flag is not set",
		!GetGameFlag(Flag::HAS_MAIN));
	SetGameFlag(Flag::HAS_MAIN,true);
	Test("Main Character flag is set",
		GetGameFlag(Flag::HAS_MAIN));
	SetGameFlag(Flag::HAS_MAIN,false);
	Test("Main Character flag is unset",
		!GetGameFlag(Flag::HAS_MAIN));
	SetGameFlag(Flag::HAS_MAIN,true);
	Cutscene*FeatureTestCutscene=new Cutscene({
			액션 Fade(),
			액션 CreateObjects({
				new Standard_Obj(PLAYER,"player",{64,64},ANIMATIONS["player.png"],{1,1},MAGENTA),
				new Standard_Obj(PLAYER,"player",{136,136},ANIMATIONS["player.png"],{1,1},RED),
				new Standard_Obj(PLAYER,"player",{96,96},ANIMATIONS["player.png"],{1,1},DARK_GREEN),
			}),
			액션 Fade(true),
			액션 SetFlagWhenCutsceneEnds(Flag::TEST_FLAG3),
			액션 SetFlag(Flag::TEST_FLAG2,true),
			액션 PanCamera({128,128},BOTH,1),
			액션 MoveCutsceneObjectAsync(1,{80,64},50),
			액션 PanCameraAsync({64,0},BOTH),
			액션 DialogBoxAsync(R"(Hello!
	This is a test message that lets us trigger straight from a cutscene! Cool!)"),
			액션 ModifyObject(0,ANIMATIONS["player.png"],{5,5},MAGENTA),
			액션 MoveCutsceneObject(1,{320,64},1),
			액션 DialogBox(R"(Hello!)"),
			액션 class LoadMap(MAPS[MapName::TWOSON]),
			액션 MovePlayerObjects({16,16}),});
	Test("No cutscene is playing",
		CurrentCutscene==nullptr);
	StartCutscene(FeatureTestCutscene);
	OnUserUpdate(1/60.f);
	Test("Current action should be fading",
		CurrentAction==ActionType::FADE);
	double previous_fade_value=CUTSCENE_FADE_VALUE;
	OnUserUpdate(1/60.f);
	Test("Fading causes CUTSCENE_FADE_VALUE to increase",
		CUTSCENE_FADE_VALUE>previous_fade_value);
	Test("There should be no objects in the game",
		OBJECTS.size()==0);
	Test("Player should not be able to move during a cutscene",
		!PlayerCanMove());
	TestWhile("Fade out should finish",CurrentAction==ActionType::FADE) {
		OnUserUpdate(1/60.f);
	}
	Test("When faded out, CUTSCENE_FADE_VALUE should be 255",
		CUTSCENE_FADE_VALUE==255);
	Test("Next cutscene action should be CreateObjects",
		CurrentAction==ActionType::CREATE_OBJECTS);
	Test("There should be 3 objects in the game",
		OBJECTS.size()==3);
	Test("Cutscene objects should have the temp flag set",
		OBJECTS[0]->temp&&OBJECTS[1]->temp&&OBJECTS[2]->temp);
	OnUserUpdate(1/60.f);
	Test("Next cutscene action should be Fade back in",
		CurrentAction==ActionType::FADE);
	previous_fade_value=CUTSCENE_FADE_VALUE;
	OnUserUpdate(1/60.f);
	Test("Fading in causes CUTSCENE_FADE_VALUE to decrease",
		CUTSCENE_FADE_VALUE<previous_fade_value);
	TestWhile("Fade in should finish",CurrentAction==ActionType::FADE) {
		OnUserUpdate(1/60.f);
	}
	Test("Next cutscene action should be setting a flag when the cutscene ends",
		CurrentAction==ActionType::SET_FLAG_WHEN_CUTSCENE_ENDS);
	Test("Ending cutscene flag is stored properly with proper flag and value",
		CurrentCutscene->GetEndingCutsceneFlag()==Flag::TEST_FLAG3&&CurrentCutscene->GetEndingCutsceneVal());
	OnUserUpdate(1/60.f);
	Test("Next cutscene action should be setting a flag on the spot",
		CurrentAction==ActionType::SET_FLAG);
	Test("Test Flag 2 should now be set",
		GetGameFlag(Flag::TEST_FLAG2));
	Test("Test Flag 2 should still not be set",
		!GetGameFlag(Flag::TEST_FLAG3));
	cameraPos={0,0};
	Test("Camera position should be {0,0}",
		cameraPos.x==0&&cameraPos.y==0);
	OnUserUpdate(1/60.f);
	Test("Next cutscene action should be panning the camera",
		CurrentAction==ActionType::PAN_CAMERA);
	Test("Camera position should be moving towards {128,128}",
		cameraPos.x>0&&cameraPos.y>0);
	Test("Temporary cutscene object 1 is at position {136,136}",
		CurrentCutscene->GetCutsceneObjects()[1]->GetPos().x==136&&CurrentCutscene->GetCutsceneObjects()[1]->GetPos().y==136);
	TestWhile("Panning Camera should finish",CurrentAction==ActionType::PAN_CAMERA) {
		OnUserUpdate(1/60.f);
	}
	Test("Camera position should be {128,128}",
		cameraPos.x==128&&cameraPos.y==128);
	Test("Next cutscene action is the async cutscene object movement",
		CurrentAction==ActionType::MOVE_CUTSCENE_OBJ_ASYNC);
	vd2d prevCutsceneObjPosition=CurrentCutscene->GetCutsceneObjects()[1]->GetPos();
	OnUserUpdate(1/60.f);
	Test("Cutscene object is moving towards {80,64}",
		CurrentCutscene->GetCutsceneObjects()[1]->GetPos().x<prevCutsceneObjPosition.x&&CurrentCutscene->GetCutsceneObjects()[1]->GetPos().y<prevCutsceneObjPosition.y);
	vd2d prevCameraPos=cameraPos;
	Test("Due to async actions, next cutscene action should be Pan Camera Async",
		CurrentAction==ActionType::PAN_CAMERA_ASYNC);
	OnUserUpdate(1/60.f);
	Test("Camera is moving towards {64,0}",
		prevCameraPos.x>cameraPos.x&&prevCameraPos.y>cameraPos.y);
	Test("Due to async actions, next cutscene action should be Dialog Box Async",
		CurrentAction==ActionType::DIALOG_ASYNC);
	Test("A message box should be on-screen",
		messageBoxVisible);
	GetAnyKeyPress(H);
	GetAnyKeyPress(H);
	Test("Pressing any key  should close the message box",
		!messageBoxVisible);
	OnUserUpdate(1/60.f);
	Test("Next cutscene action should be Modify Object 0",
		CurrentAction==ActionType::MODIFY_OBJECT);
	Test("Cutscene Object 0 is now size {5,5}",
		CurrentCutscene->GetCutsceneObjects()[0]->GetScale().x==5&&CurrentCutscene->GetCutsceneObjects()[0]->GetScale().y==5);
	OnUserUpdate(1/60.f);
	Test("Next cutscene action should be Move Cutscene Object 1",
		CurrentAction==ActionType::MOVE_CUTSCENE_OBJ);
	prevCutsceneObjPosition=CurrentCutscene->GetCutsceneObjects()[1]->GetPos();
	OnUserUpdate(1/60.f);
	Test("Cutscene Object 1 is moving towards position {320,64}",
		CurrentCutscene->GetCutsceneObjects()[1]->GetPos().x>prevCutsceneObjPosition.x&&CurrentCutscene->GetCutsceneObjects()[1]->GetPos().y==prevCutsceneObjPosition.y);
	TestWhile("Move Cutscene Object should finish",CurrentAction==ActionType::MOVE_CUTSCENE_OBJ) {
		OnUserUpdate(1/60.f);
	}
	Test("Cutscene Object 1 should be at position {320,64}",
		CurrentCutscene->GetCutsceneObjects()[1]->GetPos().x==320&&CurrentCutscene->GetCutsceneObjects()[1]->GetPos().y==64);
	Test("Next cutscene action is Dialog Box",
		CurrentAction==ActionType::DIALOG);
	Test("Dialog box should be visible",
		messageBoxVisible);
	GetAnyKeyPress(S);
	Test("Pressing a key should show the entire message",
		messageBoxText=="Hello!");
	GetAnyKeyPress(S);
	Test("Pressing a key should close the message box",
		!messageBoxVisible);
	int prevDestructionCount=OBJECT_DESTRUCTION_COUNT;
	OnUserUpdate(1/60.f);
	Test("Next cutscene action should be loading a map",
		CurrentAction==ActionType::LOAD_MAP);
	Test("Current Map should now be TWOSON",
		CURRENT_MAP==MAPS[MapName::TWOSON]);
	Test("All temporary objects should now be destroyed",
		OBJECT_DESTRUCTION_COUNT-3==prevDestructionCount);
	OnUserUpdate(1/60.f);
	Test("Next action should be moving player objects",
		CurrentAction==ActionType::MOVE_PLAYER_OBJS);
	Test("All player objects should now be at position {16,16}",
		PARTY_MEMBER_OBJ[0]->GetPos().x==16&&PARTY_MEMBER_OBJ[0]->GetPos().y==16);
	Test("Next cutscene action should be cleanup",
		CurrentCutscene->CurrentAction()==ActionType::CLEANUP);
	OnUserUpdate(1/60.f);
	Test("All cutscene and action variables should be cleaned up",
		CurrentCutscene==nullptr&&
		CurrentAction==ActionType::NONE);
	TestKey testkeys[] = {key::UP,key::DOWN,key::LEFT,key::RIGHT,key::W,key::A,key::S,key::D,key::NP8,key::NP4,key::NP5,key::NP6,key::NP2,key::BACK,key::ESCAPE,key::X,key::CTRL,key::DEL,key::END,key::NP_DECIMAL,key::NP_SUB,key::MINUS,key::PAUSE,key::TAB,key::CAPS_LOCK};
	for (TestKey k : testkeys) {
		PressTestKey(k.k);
		Test(k.keyName+" key is pressed",
			GetKeyPressed(*this,k));
		OnUserUpdate(1/60.f);
		Test(k.keyName+" key is no longer pressed",
			!GetKeyPressed(*this,k));
		Test(k.keyName+" key is held down",
			GetKeyHeld(*this,k));
		OnUserUpdate(1/60.f);
		Test(k.keyName+" key is still held down",
			GetKeyHeld(*this,k));
		for (int i=0;i<50;i++) {
			OnUserUpdate(1/60.f);
		}
		Test(k.keyName+" key is still held down after multiple updates",
			GetKeyHeld(*this,k));
		ReleaseTestKey(k.k);
		Test(k.keyName+" key is no longer held down",
			!GetKeyHeld(*this,k));
		Test(k.keyName+" key is released",
			GetKeyReleased(*this,k));
		OnUserUpdate(1/60.f);
		Test(k.keyName+" key is no longer released",
			!GetKeyReleased(*this,k));
	}
	Test("We are still in the TEST_GAME state",
		GAME_STATE==GameState::TEST_GAME);
	TestKey testRepeatKeys[] = {key::UP,key::DOWN,key::LEFT,key::RIGHT};
	for (TestKey k : testRepeatKeys) {
		frameCount=0;
		PressTestKey(k.k);
		for (int i=0;i<23;i++) {
			updateGame();
			Test(k.keyName+" key is not considered pressed",
				!GetKeyPressed(*this,k));
			keyUpdates();
		}
		int attemptCount=1;
		updateGame();
		Test(k.keyName+" key is considered pressed again (Attempt "+std::to_string(attemptCount++)+")",
			GetKeyPressed(*this,k));
		keyUpdates();
		for (int j=0;j<2;j++) {
			for (int i=0;i<3;i++) {
				updateGame();
				Test(k.keyName+" key is not considered pressed",
					!GetKeyPressed(*this,k));
				keyUpdates();
			}
			updateGame();
			Test(k.keyName+" key is considered pressed again (Attempt "+std::to_string(attemptCount++)+")",
				GetKeyPressed(*this,k));
			keyUpdates();
		}
		ResetTestKeys();
		SetDrawTarget(nullptr);
		GetDrawTarget()->GetData()[0].a=4;
	}
	LoadMap(MAPS[MapName::TEST]);
	GAME_STATE=GameState::GAME_WORLD;
	Test("Player can move when there is no cutscene and the game is in a normal state",
		PlayerCanMove()); 
	GAME_STATE=GameState::TEST_GAME;
	Test("Player cannot move during testing",
		!PlayerCanMove());
	SetGameFlag(Flag::INTRO_COMPLETED,true);
	GAME_STATE=GameState::GAME_WORLD;
	vd2d prevPlayerPos = PARTY_MEMBER_OBJ[0]->GetPos();
	CenterCameraOnPlayer();
	PressTestKeyAndRun(RIGHT);
	Test("Player has moved to the right",
		PARTY_MEMBER_OBJ[0]->GetPos().x>prevPlayerPos.x&&PARTY_MEMBER_OBJ[0]->GetPos().y==prevPlayerPos.y);
	prevPlayerPos = PARTY_MEMBER_OBJ[0]->GetPos();
	PressTestKeyAndRun(UP);
	Test("Player has moved up-right",
		PARTY_MEMBER_OBJ[0]->GetPos().x>prevPlayerPos.x&&PARTY_MEMBER_OBJ[0]->GetPos().y<prevPlayerPos.y);
	ReleaseTestKey(UP);
	prevPlayerPos = PARTY_MEMBER_OBJ[0]->GetPos();
	PressTestKeyAndRun(DOWN);
	Test("Player has moved down-right",
		PARTY_MEMBER_OBJ[0]->GetPos().x>prevPlayerPos.x&&PARTY_MEMBER_OBJ[0]->GetPos().y>prevPlayerPos.y);
	ResetTestKeys();
	prevPlayerPos = PARTY_MEMBER_OBJ[0]->GetPos();
	PressTestKeyAndRun(LEFT);
	Test("Player has moved to the left",
		PARTY_MEMBER_OBJ[0]->GetPos().x<prevPlayerPos.x&&PARTY_MEMBER_OBJ[0]->GetPos().y==prevPlayerPos.y);
	prevPlayerPos = PARTY_MEMBER_OBJ[0]->GetPos();
	PressTestKeyAndRun(UP);
	Test("Player has moved up-left",
		PARTY_MEMBER_OBJ[0]->GetPos().x<prevPlayerPos.x&&PARTY_MEMBER_OBJ[0]->GetPos().y<prevPlayerPos.y);
	ReleaseTestKey(UP);
	prevPlayerPos = PARTY_MEMBER_OBJ[0]->GetPos();
	PressTestKeyAndRun(DOWN);
	Test("Player has moved down-left",
		PARTY_MEMBER_OBJ[0]->GetPos().x<prevPlayerPos.x&&PARTY_MEMBER_OBJ[0]->GetPos().y>prevPlayerPos.y);
	ReleaseTestKey(LEFT);
	prevPlayerPos = PARTY_MEMBER_OBJ[0]->GetPos();
	OnUserUpdate(1/60.f);
	Test("Player has moved down",
		PARTY_MEMBER_OBJ[0]->GetPos().x==prevPlayerPos.x&&PARTY_MEMBER_OBJ[0]->GetPos().y>prevPlayerPos.y);
	ReleaseTestKey(DOWN);
	prevPlayerPos = PARTY_MEMBER_OBJ[0]->GetPos();
	PressTestKeyAndRun(UP);
	Test("Player has moved up",
		PARTY_MEMBER_OBJ[0]->GetPos().x==prevPlayerPos.x&&PARTY_MEMBER_OBJ[0]->GetPos().y<prevPlayerPos.y);
	ResetTestKeys();
	PARTY_MEMBER_OBJ[0]->SetPos({32-PARTY_MEMBER_OBJ[0]->originPoint.x,16-PARTY_MEMBER_OBJ[0]->originPoint.y});
	Test("Player is now centered at 32,16",
		PARTY_MEMBER_OBJ[0]->GetPosWithOrigin().x==32&&PARTY_MEMBER_OBJ[0]->GetPosWithOrigin().y==16);
	CenterCameraOnPlayer();
	for (int i=0;i<10;i++) {
		PressTestKeyAndRun(LEFT);
		ReleaseTestKey(LEFT);
	}
	Test("Player does not move due to tile collision",
		PARTY_MEMBER_OBJ[0]->GetPosWithOrigin().x==32&&PARTY_MEMBER_OBJ[0]->GetPosWithOrigin().y==16);
	SetupGameDrawing();
	SetDrawTarget(layer::COLLISION);
	bool isAllMagenta=true;
	for (int x=0;x<WIDTH;x++) {
		for (int y=0;y<HEIGHT;y++) {
			if (GetDrawTarget()->GetData()[y*WIDTH+x]!=MAGENTA) {
				isAllMagenta=false;
				goto endOfScreenCheck;
			}
		}
	}
	endOfScreenCheck:
	Test("Entire screen should be wiped to magenta before drawing anything",
		isAllMagenta);
	std::vector<std::vector<TILE>> TEMPMAP;
	std::vector<std::vector<TILE>> TEMPMAP2;
	std::vector<std::vector<TILE>> TEMPMAP3;
	std::vector<std::vector<TILE>> TEMPMAP4;
	std::vector<std::vector<TILE>> TEMPMAP5;
	std::vector<std::vector<TILE>> TEMPMAP6;
	CopyMapContents(MAP,TEMPMAP);
	CopyMapContents(MAP2,TEMPMAP2);
	CopyMapContents(MAP3,TEMPMAP3);
	CopyMapContents(MAP4,TEMPMAP4);
	CopyMapContents(MAP5,TEMPMAP5);
	CopyMapContents(MAP6,TEMPMAP6);
	Test("Entire map should be copied over properly for testing",
		ValidateEntireMap(MAP,TEMPMAP)&&
		ValidateEntireMap(MAP2,TEMPMAP2)&&
		ValidateEntireMap(MAP3,TEMPMAP3)&&
		ValidateEntireMap(MAP4,TEMPMAP4)&&
		ValidateEntireMap(MAP5,TEMPMAP5)&&
		ValidateEntireMap(MAP6,TEMPMAP6));
	TILE prevTile1=TEMPMAP[6][4];
	TILE prevTile2=TEMPMAP2[2][0];
	TILE prevTile3=TEMPMAP3[7][2];
	TILE prevTile4=TEMPMAP4[1][14];
	TILE prevTile5=TEMPMAP5[7][2];
	TILE prevTile6=TEMPMAP6[9][6];
	TEMPMAP[6][4]=TILE(9,4,0);
	TEMPMAP2[2][0]=TILE(4,7,0);
	TEMPMAP3[7][2]=TILE(4,9,0);
	TEMPMAP4[1][14]=TILE(1,2,-1);
	TEMPMAP5[7][2]=TILE(6,8,0);
	TEMPMAP6[9][6]=TILE(4,17,0);
	Test("After modifications, some parts of the map should no longer be equal",
		!ValidateEntireMap(MAP,TEMPMAP)&&
		!ValidateEntireMap(MAP2,TEMPMAP2)&&
		!ValidateEntireMap(MAP3,TEMPMAP3)&&
		!ValidateEntireMap(MAP4,TEMPMAP4)&&
		!ValidateEntireMap(MAP5,TEMPMAP5)&&
		!ValidateEntireMap(MAP6,TEMPMAP6));
	TEMPMAP[6][4]=prevTile1;
	TEMPMAP2[2][0]=prevTile2;
	TEMPMAP3[7][2]=prevTile3;
	TEMPMAP4[1][14]=prevTile4;
	TEMPMAP5[7][2]=prevTile5;
	TEMPMAP6[9][6]=prevTile6;
	LoadMap(MAPS[MapName::ONETT]);
	Test("Loading a wrong map should not validate correctly",
		!ValidateEntireMap(MAP,TEMPMAP)&&
		!ValidateEntireMap(MAP2,TEMPMAP2)&&
		!ValidateEntireMap(MAP3,TEMPMAP3)&&
		!ValidateEntireMap(MAP4,TEMPMAP4)&&
		!ValidateEntireMap(MAP5,TEMPMAP5)&&
		!ValidateEntireMap(MAP6,TEMPMAP6));
	LoadMap(MAPS[MapName::TEST]);
	Test("Upon reloading a map every tile should match up once again",
		ValidateEntireMap(MAP,TEMPMAP)&&
		ValidateEntireMap(MAP2,TEMPMAP2)&&
		ValidateEntireMap(MAP3,TEMPMAP3)&&
		ValidateEntireMap(MAP4,TEMPMAP4)&&
		ValidateEntireMap(MAP5,TEMPMAP5)&&
		ValidateEntireMap(MAP6,TEMPMAP6));
	TEMPMAP[6][4]=TILE(9,4,0);
	delete MAP[6][4];
	MAP[6][4]=new TILE(TEMPMAP[6][4].tileX,TEMPMAP[6][4].tileY,TEMPMAP[6][4].tileDegree);
	delete MAP2[2][0];
	TEMPMAP2[2][0]=TILE(4,7,0);
	MAP2[2][0]=new TILE(TEMPMAP2[2][0].tileX,TEMPMAP2[2][0].tileY,TEMPMAP2[2][0].tileDegree);
	delete MAP3[7][2];
	TEMPMAP3[7][2]=TILE(4,9,0);
	MAP3[7][2]=new TILE(TEMPMAP3[7][2].tileX,TEMPMAP3[7][2].tileY,TEMPMAP3[7][2].tileDegree);
	TEMPMAP4[1][14]=TILE(12,1,-1);
	delete MAP4[1][14];
	MAP4[1][14]=new TILE(TEMPMAP4[1][14].tileX,TEMPMAP4[1][14].tileY,TEMPMAP4[1][14].tileDegree);
	TEMPMAP5[7][2]=TILE(6,8,0);
	delete MAP5[7][2];
	MAP5[7][2]=new TILE(TEMPMAP5[7][2].tileX,TEMPMAP5[7][2].tileY,TEMPMAP5[7][2].tileDegree);
	TEMPMAP6[9][6]=TILE(4,17,0);
	delete MAP6[9][6];
	MAP6[9][6]=new TILE(TEMPMAP6[9][6].tileX,TEMPMAP6[9][6].tileY,TEMPMAP6[9][6].tileDegree);
	SaveMap(MAPS[MapName::TEST]);
	Test("Saving a test map should have no side effects",
		ValidateEntireMap(MAP,TEMPMAP)&&
		ValidateEntireMap(MAP2,TEMPMAP2)&&
		ValidateEntireMap(MAP3,TEMPMAP3)&&
		ValidateEntireMap(MAP4,TEMPMAP4)&&
		ValidateEntireMap(MAP5,TEMPMAP5)&&
		ValidateEntireMap(MAP6,TEMPMAP6));
	LoadMap(MAPS[MapName::TEST]);
	Test("Loading the same map should result in the same map",
		ValidateEntireMap(MAP,TEMPMAP)&&
		ValidateEntireMap(MAP2,TEMPMAP2)&&
		ValidateEntireMap(MAP3,TEMPMAP3)&&
		ValidateEntireMap(MAP4,TEMPMAP4)&&
		ValidateEntireMap(MAP5,TEMPMAP5)&&
		ValidateEntireMap(MAP6,TEMPMAP6));
	TEMPMAP[6][4]=TILE(15,15,0);
	TEMPMAP2[2][0]=TILE(15,15,0);
	TEMPMAP3[7][2]=TILE(15,15,0);
	TEMPMAP4[1][14]=TILE(15,15,0);
	TEMPMAP5[7][2]=TILE(15,15,0);
	TEMPMAP6[9][6]=TILE(15,15,0);
	Test("Loading the same map should result in the same map (2)",
		!ValidateEntireMap(MAP,TEMPMAP)&&
		!ValidateEntireMap(MAP2,TEMPMAP2)&&
		!ValidateEntireMap(MAP3,TEMPMAP3)&&
		!ValidateEntireMap(MAP4,TEMPMAP4)&&
		!ValidateEntireMap(MAP5,TEMPMAP5)&&
		!ValidateEntireMap(MAP6,TEMPMAP6));
	MAP[6][4]->tileX=MAP[6][4]->tileY=15;MAP[6][4]->tileDegree=0;
	MAP2[2][0]->tileX=MAP2[2][0]->tileY=15;MAP2[2][0]->tileDegree=0;
	MAP3[7][2]->tileX=MAP3[7][2]->tileY=15;MAP3[7][2]->tileDegree=0;
	MAP4[1][14]->tileX=MAP4[1][14]->tileY=15;MAP4[1][14]->tileDegree=0;
	MAP5[7][2]->tileX=MAP5[7][2]->tileY=15;MAP5[7][2]->tileDegree=0;
	MAP6[9][6]->tileX=MAP6[9][6]->tileY=15;MAP6[9][6]->tileDegree=0;
	SaveMap(MAPS[MapName::TEST]);
	Test("Map is back to normal",
		ValidateEntireMap(MAP,TEMPMAP)&&
		ValidateEntireMap(MAP2,TEMPMAP2)&&
		ValidateEntireMap(MAP3,TEMPMAP3)&&
		ValidateEntireMap(MAP4,TEMPMAP4)&&
		ValidateEntireMap(MAP5,TEMPMAP5)&&
		ValidateEntireMap(MAP6,TEMPMAP6));
	return true;
}

bool SeasonI::OnUserUpdate(float fElapsedTime)
{
	updateGame();
	keyUpdates();
	SetupGameDrawing();
	drawGame();
	return true;
}

int main() {
	SeasonI demo;
	if (demo.Construct(WIDTH, HEIGHT, 4, 4))
		demo.Start();

	return 0;
}