#pragma region License /* License (OLC-3) ~~~~~~~~~~~~~~~ Copyright 2018 - 2023 OneLoneCoder.com Redistribution and use in source and binary forms, with or without modification, are permitted provided that the following conditions are met: 1. Redistributions or derivations of source code must retain the above copyright notice, this list of conditions and the following disclaimer. 2. Redistributions or derivative works in binary form must reproduce the above copyright notice. This list of conditions and the following disclaimer must be reproduced in the documentation and/or other materials provided with the distribution. 3. Neither the name of the copyright holder nor the names of its contributors may be used to endorse or promote products derived from this software without specific prior written permission. THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. Portions of this software are copyright © 2023 The FreeType Project (www.freetype.org). Please see LICENSE_FT.txt for more information. All rights reserved. */ #pragma endregion #include "Monster.h" #include "Player.h" #include "Crawler.h" #include "DamageNumber.h" #include "Bullet.h" #include "BulletTypes.h" #include "DEFINES.h" #include "safemap.h" #include "util.h" #include "Key.h" #include "Menu.h" #include "GameState.h" #include "MenuComponent.h" #include "config.h" #include INCLUDE_MONSTER_DATA INCLUDE_MONSTER_LIST INCLUDE_ANIMATION_DATA INCLUDE_SPAWNER_LIST INCLUDE_BULLET_LIST INCLUDE_DAMAGENUMBER_LIST INCLUDE_game INCLUDE_DATA float Player::GROUND_SLAM_SPIN_TIME=0.6f; InputGroup Player::KEY_ABILITY1; InputGroup Player::KEY_ABILITY2; InputGroup Player::KEY_ABILITY3; InputGroup Player::KEY_ABILITY4; InputGroup Player::KEY_DEFENSIVE; InputGroup Player::KEY_ITEM1; InputGroup Player::KEY_ITEM2; InputGroup Player::KEY_ITEM3; std::setPlayer::moneyListeners; Player::Player() :lastReleasedMovementKey(DOWN),facingDirection(DOWN),state(State::NORMAL){ Initialize(); } Player::Player(Player*player) :pos(player->GetPos()),vel(player->GetVelocity()),iframe_time(player->iframe_time),lastReleasedMovementKey(DOWN), facingDirection(DOWN),state(State::NORMAL){ Initialize(); } void Player::Initialize(){ Player::GROUND_SLAM_SPIN_TIME="Warrior.Ability 2.SpinTime"_F; SetBaseStat("Health",hp); SetBaseStat("Mana",mana); SetBaseStat("Defense",0); SetBaseStat("Attack","Warrior.BaseAtk"_I); SetBaseStat("Move Spd %",100); SetBaseStat("CDR",0); SetBaseStat("Crit Rate","Player.Crit Rate"_F); SetBaseStat("Crit Dmg","Player.Crit Dmg"_F); SetBaseStat("Health %",0); SetBaseStat("HP6 Recovery %",0); } bool Player::SetX(float x){ vf2d newPos={x,pos.y}; vi2d tilePos=vi2d(newPos/float(game->GetCurrentMap().tilewidth))*game->GetCurrentMap().tilewidth; geom2d::rectcollisionRect=game->GetTileCollision(game->GetCurrentLevel(),newPos,upperLevel); #pragma region lambdas auto NoTileCollisionExistsHere=[&](){return collisionRect.pos==game->NO_COLLISION.pos&&collisionRect.size==game->NO_COLLISION.size;}; #pragma endregion if(NoTileCollisionExistsHere()){ pos.x=std::clamp(x,game->GetCurrentMap().tilewidth/2.f*GetSizeMult(),float(game->GetCurrentMap().width*game->GetCurrentMap().tilewidth-game->GetCurrentMap().tilewidth/2.f*GetSizeMult())); Moved(); return true; } else { geom2d::rectcollision={collisionRect.pos,collisionRect.size}; #pragma region lambdas auto NoPlayerCollisionWithTile=[&](){return !geom2d::overlaps(newPos,collision);}; #pragma endregion collision.pos+=tilePos; if(NoPlayerCollisionWithTile()){ pos.x=std::clamp(x,game->GetCurrentMap().tilewidth/2.f*GetSizeMult(),float(game->GetCurrentMap().width*game->GetCurrentMap().tilewidth-game->GetCurrentMap().tilewidth/2.f*GetSizeMult())); Moved(); return true; } } return false; }; bool Player::SetY(float y){ vf2d newPos={pos.x,y}; vi2d tilePos=vi2d(newPos/float(game->GetCurrentMap().tilewidth))*game->GetCurrentMap().tilewidth; geom2d::rectcollisionRect=game->GetTileCollision(game->GetCurrentLevel(),newPos,upperLevel); #pragma region lambdas auto NoTileCollisionExistsHere=[&](){return collisionRect.pos==game->NO_COLLISION.pos&&collisionRect.size==game->NO_COLLISION.size;}; #pragma endregion if(NoTileCollisionExistsHere()){ pos.y=std::clamp(y,game->GetCurrentMap().tilewidth/2.f*GetSizeMult(),float(game->GetCurrentMap().height*game->GetCurrentMap().tilewidth-game->GetCurrentMap().tilewidth/2.f*GetSizeMult())); Moved(); return true; } else { geom2d::rectcollision={collisionRect.pos,collisionRect.size}; #pragma region lambdas auto NoPlayerCollisionWithTile=[&](){return !geom2d::overlaps(newPos,collision);}; #pragma endregion collision.pos+=tilePos; if(NoPlayerCollisionWithTile()){ pos.y=std::clamp(y,game->GetCurrentMap().tilewidth/2.f*GetSizeMult(),float(game->GetCurrentMap().height*game->GetCurrentMap().tilewidth-game->GetCurrentMap().tilewidth/2.f*GetSizeMult())); Moved(); return true; } } return false; } void Player::SetZ(float z){ this->z=z; } bool Player::SetPos(vf2d pos){ bool resultX=SetX(pos.x); bool resultY=SetY(pos.y); if(resultY&&!resultX){ resultX=SetX(pos.x); } return resultX||resultY; } vf2d&Player::GetPos(){ return pos; } float Player::GetX(){ return pos.x; } float Player::GetY(){ return pos.y; } float Player::GetZ(){ return z; } const int Player::GetHealth()const{ return hp; } const float&Player::GetMaxHealth()const{ return GetStat("Health"); } const int Player::GetMana()const{ return mana; } const int Player::GetMaxMana()const{ return GetStat("Mana"); } const int Player::GetAttack(){ float mod_atk=float(GetStat("Attack")); mod_atk+=Get("Attack"); mod_atk+=Get("Attack %"); return int(mod_atk); } float Player::GetMoveSpdMult(){ float mod_moveSpd=GetStat("Move Spd %")/100.f; mod_moveSpd+=ItemAttribute::Get("Move Spd %",this); for(const Buff&b:GetBuffs(BuffType::SLOWDOWN)){ mod_moveSpd-=mod_moveSpd*b.intensity; } for(const Buff&b:GetBuffs(BuffType::BLOCK_SLOWDOWN)){ mod_moveSpd-=mod_moveSpd*b.intensity; } return mod_moveSpd; } float Player::GetSizeMult(){ return size; } float Player::GetAttackRangeMult(){ return attack_range; } float Player::GetSpinAngle(){ return spin_angle; } State::State Player::GetState(){ return state; } void Player::Knockback(vf2d vel){ this->vel+=vel; } void Player::Update(float fElapsedTime){ Ability&rightClickAbility=GetRightClickAbility(), &ability=GetAbility1(), &ability2=GetAbility2(), &ability3=GetAbility3(), &ability4=GetAbility4(), &item1=useItem1, &item2=useItem2, &item3=useItem3; attack_cooldown_timer=std::max(0.f,attack_cooldown_timer-fElapsedTime); iframe_time=std::max(0.f,iframe_time-fElapsedTime); notEnoughManaDisplay.second=std::max(0.f,notEnoughManaDisplay.second-fElapsedTime); notificationDisplay.second=std::max(0.f,notificationDisplay.second-fElapsedTime); lastHitTimer=std::max(0.f,lastHitTimer-fElapsedTime); blockTimer=std::max(0.f,blockTimer-fElapsedTime); lastCombatTime=lastCombatTime+fElapsedTime; manaTickTimer-=fElapsedTime; hpRecoveryTimer=std::max(0.f,hpRecoveryTimer-fElapsedTime); hp6RecoveryTimer=std::max(0.f,hp6RecoveryTimer-fElapsedTime); hp4RecoveryTimer=std::max(0.f,hp4RecoveryTimer-fElapsedTime); PerformHPRecovery(); CheckEndZoneCollision(); if(castInfo.castTimer>0){ castInfo.castTimer-=fElapsedTime; if(castInfo.castTimer<=0){ bool allowed=castPrepAbility->actionPerformedDuringCast; if(!allowed&&castPrepAbility->action(this,castInfo.castPos))allowed=true; if(allowed){ castPrepAbility->cooldown=castPrepAbility->GetCooldownTime(); ConsumeMana(castPrepAbility->manaCost); } castInfo.castTimer=0; SetState(State::NORMAL); } } while(manaTickTimer<=0){ manaTickTimer+=0.2f; RestoreMana(1,true); } for(Buff&b:buffList){ b.duration-=fElapsedTime; if(b.nextTick>0&&b.duration0){ z=float("Warrior.Ability 2.SpinMaxHeight"_I)*sin(3.3f*(GROUND_SLAM_SPIN_TIME-spin_attack_timer)/GROUND_SLAM_SPIN_TIME); spin_attack_timer=std::max(0.f,spin_attack_timer-fElapsedTime); } else { SetState(State::NORMAL); spin_angle=0; z=0; float numb=4; game->HurtEnemies(pos,"Warrior.Ability 2.Range"_F/100*12,int(GetAttack()*"Warrior.Ability 2.DamageMult"_F),OnUpperLevel(),0); game->AddEffect(std::make_unique(GetPos(),"Warrior.Ability 2.EffectLifetime"_F,"ground-slam-attack-front.png",upperLevel,"Warrior.Ability 2.Range"_F/300*1.33f,"Warrior.Ability 2.EffectFadetime"_F),std::make_unique(GetPos(),"Warrior.Ability 2.EffectLifetime"_F,"ground-slam-attack-back.png",upperLevel,"Warrior.Ability 2.Range"_F/300*1.33f,"Warrior.Ability 2.EffectFadetime"_F)); } if(lastAnimationFlip>0){ lastAnimationFlip=std::max(0.f,lastAnimationFlip-fElapsedTime); } animation.UpdateState(internal_animState,fElapsedTime); }break; case State::BLOCK:{ if(blockTimer<=0){ SetState(State::NORMAL); } }break; case State::SWING_SONIC_SWORD:{ if(ability3.GetCooldownTime()-ability3.cooldown>0.5){ SetState(State::NORMAL); switch(facingDirection){ case DOWN:{ UpdateAnimation("WARRIOR_IDLE_S"); }break; case RIGHT:{ UpdateAnimation("WARRIOR_IDLE_E"); }break; case LEFT:{ UpdateAnimation("WARRIOR_IDLE_W"); }break; case UP:{ UpdateAnimation("WARRIOR_IDLE_N"); }break; } } animation.UpdateState(internal_animState,fElapsedTime); }break; case State::TELEPORT:{ teleportAnimationTimer=std::max(0.f,teleportAnimationTimer-fElapsedTime); if(teleportAnimationTimer<=0){ SetPos(teleportTarget); SetState(State::NORMAL); } animation.UpdateState(internal_animState,fElapsedTime); }break; default:{ //Update animations normally. animation.UpdateState(internal_animState,fElapsedTime); } } float cooldownMultiplier; if(game->GetPlayer()->GetCooldownReductionPct()>=1.0f){ cooldownMultiplier=999999; }else{ cooldownMultiplier=1/(1-game->GetPlayer()->GetCooldownReductionPct()); } rightClickAbility.cooldown-=fElapsedTime*cooldownMultiplier; ability.cooldown-=fElapsedTime*cooldownMultiplier; ability2.cooldown-=fElapsedTime*cooldownMultiplier; ability3.cooldown-=fElapsedTime*cooldownMultiplier; ability4.cooldown-=fElapsedTime*cooldownMultiplier; item1.cooldown-=fElapsedTime; item2.cooldown-=fElapsedTime; item3.cooldown-=fElapsedTime; if(rightClickAbility.cooldown<0){ rightClickAbility.cooldown=0; } if(ability.cooldown<0){ ability.cooldown=0; } if(ability2.cooldown<0){ ability2.cooldown=0; } if(ability3.cooldown<0){ ability3.cooldown=0; } if(ability4.cooldown<0){ ability4.cooldown=0; } if(item1.cooldown<0){ item1.cooldown=0; } if(item2.cooldown<0){ item2.cooldown=0; } if(item3.cooldown<0){ item3.cooldown=0; } for(Monster&m:MONSTER_LIST){ if(!HasIframes()&&abs(m.GetZ()-GetZ())<=1&&OnUpperLevel()==m.OnUpperLevel()&&geom2d::overlaps(geom2d::circle(pos,12*size/2),geom2d::circle(m.GetPos(),12*m.GetSizeMult()/2))){ if(m.IsAlive()){ m.Collision(this); } geom2d::line line(pos,m.GetPos()); float dist = line.length(); if(dist<=0.001){ m.SetPos(m.GetPos()+vf2d{util::random(2)-1,util::random(2)-1}); }else{ m.SetPos(line.rpoint(dist*1.1f)); } if(m.IsAlive()){ vel=line.vector().norm()*-128; } } } if(vel.x>0){ vel.x=std::max(0.f,vel.x-friction*fElapsedTime); } else { vel.x=std::min(0.f,vel.x+friction*fElapsedTime); } if(vel.y>0){ vel.y=std::max(0.f,vel.y-friction*fElapsedTime); } else { vel.y=std::min(0.f,vel.y+friction*fElapsedTime); } if(vel!=vf2d{0,0}){ float newX=pos.x+vel.x*fElapsedTime; float newY=pos.y+vel.y*fElapsedTime; SetX(newX); SetY(newY); } if(Menu::stack.empty()){ if(CanAct()&&attack_cooldown_timer==0&&Crawler::KEY_ATTACK.Held()){ AutoAttack(); } auto AllowedToCast=[&](Ability&ability){return !ability.precastInfo.precastTargetingRequired&&GetState()!=State::ANIMATION_LOCK;}; //If pressed is set to false, uses held instead. auto CheckAndPerformAbility=[&](Ability&ability,InputGroup key){ if(ability.name!="???"){ if(CanAct(ability)){ if(ability.cooldown==0&&GetMana()>=ability.manaCost){ if(key.Held()||key.Released()&&&ability==castPrepAbility&&GetState()==State::PREP_CAST){ if(AllowedToCast(ability)&&ability.action(this,{})){ bool allowed=ability.actionPerformedDuringCast; ability.cooldown=ability.GetCooldownTime(); CancelCast(); ConsumeMana(ability.manaCost); }else if(ability.precastInfo.precastTargetingRequired&&GetState()==State::NORMAL){ PrepareCast(ability); } } } else if(ability.cooldown==0&&GetMana()0){ SetZ(6*sin(PI/RETREAT_TIME*retreatTimer)); retreatTimer-=fElapsedTime; if(retreatTimer<=0){ SetVelocity({}); SetZ(0); SetState(State::NORMAL); } } if(ghostRemoveTimer>0){ ghostRemoveTimer-=fElapsedTime; if(ghostRemoveTimer<=0){ if(ghostPositions.size()>0){ ghostPositions.erase(ghostPositions.begin()); if(ghostPositions.size()>0){ ghostRemoveTimer=RETREAT_GHOST_FRAME_DELAY; } } } } if(ghostFrameTimer>0){ ghostFrameTimer-=fElapsedTime; if(ghostFrameTimer<=0&&GetState()==State::RETREAT){ ghostPositions.push_back(GetPos()+vf2d{0,-GetZ()}); ghostFrameTimer=RETREAT_GHOST_FRAME_DELAY; } } if(rapidFireTimer>0){ rapidFireTimer-=fElapsedTime; if(rapidFireTimer<=0){ if(remainingRapidFireShots>0){ remainingRapidFireShots--; geom2d::line pointTowardsCursor(GetPos(),game->GetWorldMousePos()); vf2d extendedLine=pointTowardsCursor.upoint(1.1f); float angleToCursor=atan2(extendedLine.y-GetPos().y,extendedLine.x-GetPos().x); attack_cooldown_timer=ARROW_ATTACK_COOLDOWN; BULLET_LIST.push_back(std::make_unique(Arrow(GetPos(),extendedLine,vf2d{cos(angleToCursor)*"Ranger.Ability 1.ArrowSpd"_F,float(sin(angleToCursor)*"Ranger.Ability 1.ArrowSpd"_F-PI/8*"Ranger.Ability 1.ArrowSpd"_F)}+movementVelocity,12*"Ranger.Ability 1.ArrowRadius"_F/100,int(GetAttack()*"Ranger.Ability 1.DamageMult"_F),OnUpperLevel(),true))); SetAnimationBasedOnTargetingDirection(angleToCursor); rapidFireTimer=RAPID_FIRE_SHOOT_DELAY; }else{ SetState(State::NORMAL); } } } #pragma endregion } float Player::GetSwordSwingTimer(){ return swordSwingTimer; } void Player::SetSwordSwingTimer(float val){ swordSwingTimer=val; } void Player::SetState(State::State newState){ if(GetState()==State::BLOCK){ RemoveAllBuffs(BuffType::BLOCK_SLOWDOWN); } state=newState; } vf2d Player::GetVelocity(){ return vel; } bool Player::CanMove(){ return state!=State::ANIMATION_LOCK&&(state!=State::CASTING||(castInfo.castTotalTime-castInfo.castTimer>0.2f)); } bool Player::CanAct(){ Ability dummyAbility; return CanAct(dummyAbility); } bool Player::CanAct(Ability&ability){ return !ability.waitForRelease&&(ability.canCancelCast||state!=State::CASTING)&&state!=State::ANIMATION_LOCK&&GameState::STATE==GameState::states[States::GAME_RUN]; } bool Player::HasIframes(){ return iframe_time>0; } bool Player::Hurt(int damage,bool onUpperLevel,float z){ if(hp<=0||HasIframes()||OnUpperLevel()!=onUpperLevel||abs(GetZ()-z)>1) return false; float mod_dmg=float(damage); if(GetState()==State::BLOCK){ mod_dmg=0; }else{ float otherDmgTaken=1-GetDamageReductionFromBuffs(); float armorDmgTaken=1-GetDamageReductionFromArmor(); lastCombatTime=0; float finalPctDmgTaken=armorDmgTaken*otherDmgTaken; if(finalPctDmgTaken<=6._Pct){ std::cout<<"WARNING! Damage Reduction has somehow ended up below 6%, which is over the cap!"<0){ damageNumberPtr.get()->damage+=int(mod_dmg); damageNumberPtr.get()->pauseTime=0.4f; } else { damageNumberPtr=std::make_shared(pos,int(mod_dmg),true); DAMAGENUMBER_LIST.push_back(damageNumberPtr); } lastHitTimer=0.05f; return true; } void Player::AddAnimation(std::string state){ animation.AddState(state,ANIMATION_DATA.at(state)); } void Player::UpdateAnimation(std::string animState,int specificClass){ if(specificClass==ANY||specificClass&GetClass()){ animation.ChangeState(internal_animState,animState); } } Animate2D::Frame Player::GetFrame(){ return animation.GetFrame(internal_animState); } void Player::SetLastReleasedMovementKey(Key k){ lastReleasedMovementKey=k; } Key Player::GetLastReleasedMovementKey(){ return lastReleasedMovementKey; } void Player::SetFacingDirection(Key direction){ facingDirection=direction; } Key Player::GetFacingDirection(){ return facingDirection; } void Player::CancelCast(){ bool wasCasting=castInfo.castTimer>0; castInfo={"",0}; std::erase_if(buffList,[](Buff&b){return b.type==RESTORATION_DURING_CAST;}); //Remove all buffs that would be applied during a cast, as we got interrupted. if(wasCasting){ DAMAGENUMBER_LIST.push_back(std::make_shared(GetPos(),0,true,INTERRUPT)); } } void Player::Moved(){ if(state==State::CASTING){ state=State::NORMAL; castPrepAbility->waitForRelease=true; CancelCast(); } for(MonsterSpawner&spawner:SPAWNER_LIST){ if(!spawner.SpawnTriggered()&&spawner.DoesUpperLevelSpawning()==OnUpperLevel()&&geom2d::contains(geom2d::rect{spawner.GetPos(),spawner.GetRange()},pos)){ spawner.SetTriggered(true); } } std::map>&zoneData=game->GetZoneData(game->GetCurrentLevel()); for(ZoneData&upperLevelZone:zoneData["UpperZone"]){ if(geom2d::overlaps(upperLevelZone.zone,pos)){ upperLevel=true; } } for(ZoneData&lowerLevelZone:zoneData["LowerZone"]){ if(geom2d::overlaps(lowerLevelZone.zone,pos)){ upperLevel=false; } } } void Player::Spin(float duration,float spinSpd){ SetState(State::SPIN); spin_attack_timer=duration; spin_spd=spinSpd; spin_angle=0; } void Player::UpdateWalkingAnimation(Key direction){ std::string anim; switch(direction){ case UP:anim=GetWalkNAnimation();break; case RIGHT:anim=GetWalkEAnimation();break; case DOWN:anim=GetWalkSAnimation();break; case LEFT:anim=GetWalkWAnimation();break; } UpdateAnimation(anim); } void Player::UpdateIdleAnimation(Key direction){ std::string anim; switch(direction){ case UP:anim=GetIdleNAnimation();break; case RIGHT:anim=GetIdleEAnimation();break; case DOWN:anim=GetIdleSAnimation();break; case LEFT:anim=GetIdleWAnimation();break; } UpdateAnimation(anim); } void Player::AddBuff(BuffType type,float duration,float intensity){ buffList.push_back(Buff{type,duration,intensity}); } void Player::AddBuff(BuffType type,float duration,float intensity,std::setattr){ buffList.push_back(Buff{type,duration,intensity,attr}); } void Player::AddBuff(BuffType type,float duration,float intensity,std::setattr){ buffList.push_back(Buff{type,duration,intensity,attr}); } void Player::AddBuff(BuffType type,float duration,float intensity,float timeBetweenTicks,std::functionrepeatAction){ buffList.push_back(Buff{type,duration,intensity,timeBetweenTicks,repeatAction}); } bool Player::OnUpperLevel(){ return upperLevel; } const std::vectorPlayer::GetBuffs(BuffType buff)const{ std::vectorfilteredBuffs; std::copy_if(buffList.begin(),buffList.end(),std::back_inserter(filteredBuffs),[buff](const Buff b){return b.type==buff;}); return filteredBuffs; } void Player::RemoveBuff(BuffType buff){ for(auto it=buffList.begin();it!=buffList.end();++it){ Buff&b=*it; if(b.type==buff){ buffList.erase(it); return; } } } void Player::RemoveAllBuffs(BuffType buff){ std::erase_if(buffList,[&](Buff&b){return b.type==buff;}); } void Player::RemoveAllBuffs(){ buffList.clear(); } void Player::CastSpell(Ability&ability){ vf2d castPosition=game->GetWorldMousePos(); float distance=float(sqrt(pow(GetX()-game->GetWorldMousePos().x,2)+pow(GetY()-game->GetWorldMousePos().y,2))); if(distance>ability.precastInfo.range){//Clamp the distance. vf2d pointToCursor = {game->GetWorldMousePos().x-GetX(),game->GetWorldMousePos().y-GetY()}; pointToCursor=pointToCursor.norm()*ability.precastInfo.range; castPosition=GetPos()+pointToCursor; } castInfo={ability.name,ability.precastInfo.castTime,ability.precastInfo.castTime,castPosition}; if(ability.actionPerformedDuringCast){ability.action(this,castPosition);} SetState(State::CASTING); } CastInfo&Player::GetCastInfo(){ return castInfo; } bool Player::CanPathfindTo(vf2d pos,vf2d targetPos,float range){ if(targetPos.x<0||targetPos.y<0||targetPos.x>game->GetCurrentMap().width*game->GetCurrentMap().tilewidth||targetPos.y>game->GetCurrentMap().height*game->GetCurrentMap().tileheight)return false; std::vectorpathing=game->pathfinder.Solve_AStar(pos,targetPos,range,upperLevel); return pathing.size()>0&&pathing.size()0){ SetState(State::PREP_CAST); }else{ CastSpell(ability); } } void Player::SetVelocity(vf2d vel){ this->vel=vel; } void Player::SetAnimationBasedOnTargetingDirection(float targetDirection){ if(GetClass()==Class::RANGER){ if(targetDirection<=PI/4&&targetDirection>-PI/4){ UpdateAnimation("RANGER_SHOOT_E"); } else if(targetDirection>=3*PI/4||targetDirection<-3*PI/4){ UpdateAnimation("RANGER_SHOOT_W"); } else if(targetDirection<=3*PI/4&&targetDirection>PI/4){ UpdateAnimation("RANGER_SHOOT_S"); } else if(targetDirection>=-3*PI/4&&targetDirection<-PI/4){ UpdateAnimation("RANGER_SHOOT_N"); } } } void Player::SetIframes(float duration){ iframe_time=duration; } bool Player::Heal(int damage){ hp=std::clamp(hp+damage,0,int(GetStat("Health"))); if(damage>0){ DAMAGENUMBER_LIST.push_back(std::make_shared(GetPos(),damage,true,HEALTH_GAIN)); } return true; } void Player::RestoreMana(int amt,bool suppressDamageNumber){ mana=std::clamp(mana+amt,0,GetMaxMana()); if(amt>0&&!suppressDamageNumber){ DAMAGENUMBER_LIST.push_back(std::make_shared(GetPos(),amt,true,MANA_GAIN)); } } void Player::ConsumeMana(int amt){ mana=std::clamp(mana-amt,0,GetMaxMana()); } void Player::SetSizeMult(float size){ this->size=size; } void Player::ResetLastCombatTime(){ lastCombatTime=0; } bool Player::IsOutOfCombat(){ return lastCombatTime>="Player.Out of Combat Time"_F; } float Player::GetEndZoneStandTime(){ return endZoneStandTime; } void Player::CheckEndZoneCollision(){ auto HasZoneData=[&](){ return game->MAP_DATA[game->GetCurrentLevel()].ZoneData.count("EndZone"); }; if(IsOutOfCombat()&&HasZoneData()){ for(ZoneData&zone:game->MAP_DATA[game->GetCurrentLevel()].ZoneData.at("EndZone")){ if(zone.isUpper==upperLevel&&geom2d::overlaps(GetPos(),zone.zone)){ endZoneStandTime+=game->GetElapsedTime(); if(endZoneStandTime>="Player.End Zone Wait Time"_F){ GameState::ChangeState(States::LEVEL_COMPLETE); } return; } } } endZoneStandTime=0; } void Player::SetItem1UseFunc(Ability a){ useItem1=a; }; void Player::SetItem2UseFunc(Ability a){ useItem2=a; }; void Player::SetItem3UseFunc(Ability a){ useItem3=a; }; const float&Player::GetStat(std::string_view a)const{ return GetStat(ItemAttribute::Get(a)); } const float&Player::GetStat(ItemAttribute a)const{ return stats.GetStat(a); } const float&Player::GetBaseStat(std::string_view a)const{ return GetBaseStat(ItemAttribute::Get(a)); } const float&Player::GetBaseStat(ItemAttribute a)const{ return stats.GetBaseStat(a); } void EntityStats::RecalculateEquipStats(){ baseStats.copyTo(equipStats); for(int i=int(EquipSlot::HELMET);i<=int(EquipSlot::RING2);i<<=1){ EquipSlot slot=EquipSlot(i); std::weak_ptrequip=Inventory::GetEquip(slot); if(ISBLANK(equip))continue; for(auto&[key,size]:ItemAttribute::attributes){ equipStats.A(key)+=equip.lock()->GetStats().A_Read(key); equipStats.A(key)+=equip.lock()->RandomStats().A_Read(key); } } const std::map&setCounts=Inventory::GetEquippedItemSets(); for(const auto&[set,equipCount]:setCounts){ const Stats&setStats=set[equipCount]; for(auto&[key,size]:ItemAttribute::attributes){ equipStats.A(key)+=setStats.A_Read(key); } } for(MenuComponent*component:Menu::equipStatListeners){ component->OnEquipStatsUpdate(); } } const float&EntityStats::GetStat(ItemAttribute stat)const{ return equipStats.A_Read(stat); } const float&EntityStats::GetStat(std::string_view stat)const{ return equipStats.A_Read(stat); } const float&EntityStats::GetBaseStat(ItemAttribute stat)const{ return baseStats.A_Read(stat); } const float&EntityStats::GetBaseStat(std::string_view stat)const{ return baseStats.A_Read(stat); } void EntityStats::SetBaseStat(ItemAttribute stat,float val){ baseStats.A(stat)=val; RecalculateEquipStats(); } void EntityStats::SetBaseStat(std::string_view stat,float val){ SetBaseStat(ItemAttribute::Get(stat),val); } void Player::SetBaseStat(std::string_view a,float val){ stats.SetBaseStat(ItemAttribute::Get(a),val); } void Player::SetBaseStat(ItemAttribute a,float val){ stats.SetBaseStat(a,val); } const std::string&ItemSet::GetSetName()const{ return name; } uint32_t Player::GetMoney()const{ return money; } void Player::SetMoney(uint32_t newMoney){ money=newMoney; for(auto&component:moneyListeners){ component->OnPlayerMoneyUpdate(newMoney); } } void Player::AddMoneyListener(MenuComponent*component){ if(moneyListeners.count(component))ERR("WARNING! Trying to add a second copy of component "<GetName())); moneyListeners.insert(component); } const float Player::GetDamageReductionFromBuffs()const{ float dmgReduction=0; for(const Buff&b:GetBuffs(BuffType::DAMAGE_REDUCTION)){ dmgReduction+=b.intensity; } dmgReduction+=GetDamageReductionPct(); return std::min(0.75f,dmgReduction); }; const float Player::GetDamageReductionFromArmor()const{ float dmgReduction=0; dmgReduction+=Stats::GetDamageReductionPct(GetStat("Defense")); return std::min(0.75f,dmgReduction); }; void Player::RecalculateEquipStats(){ stats.RecalculateEquipStats(); } const std::vectorPlayer::GetStatBuffs(const std::vector&attr)const{ std::vectorstatUpBuffs; std::copy_if(buffList.begin(),buffList.end(),std::back_inserter(statUpBuffs),[&](const Buff b){ return b.type==STAT_UP&&std::find_if(attr.begin(),attr.end(),[&](const std::string&attr){return b.attr.count(ItemAttribute::Get(attr));})!=attr.end(); }); return statUpBuffs; } const ItemAttributable&EntityStats::GetStats()const{ return equipStats; } const ItemAttributable&Player::GetStats()const{ return stats.GetStats(); }; ItemAttribute&Player::Get(std::string_view attr){ return ItemAttribute::Get(attr,this); } const float Player::GetCooldownReductionPct()const{ float modCDRPct=0; const std::vector&buffs=GetStatBuffs({"CDR"}); for(const Buff&b:buffs){ modCDRPct+=b.intensity; } modCDRPct+=GetStat("CDR")/100; return modCDRPct; } const float Player::GetCritRatePct()const{ float modCritRatePct=0; modCritRatePct+=GetStat("Crit Rate")/100; return modCritRatePct; } const float Player::GetCritDmgPct()const{ float modCritDmgPct=0; modCritDmgPct+=GetStat("Crit Dmg")/100; return modCritDmgPct; } const float Player::GetHPRecoveryPct()const{ float modHPRecoveryPct=0; modHPRecoveryPct+=GetStat("HP Recovery %")/100; return modHPRecoveryPct; } const float Player::GetHP6RecoveryPct()const{ float modHPRecoveryPct=0; modHPRecoveryPct+=GetStat("HP6 Recovery %")/100; return modHPRecoveryPct; } const float Player::GetHP4RecoveryPct()const{ float modHPRecoveryPct=0; modHPRecoveryPct+=GetStat("HP4 Recovery %")/100; return modHPRecoveryPct; } void Player::PerformHPRecovery(){ int hpRecoveryAmt=0; if(hpRecoveryTimer==0){ if(float(GetHPRecoveryPct()*GetMaxHealth())>0.1_Pct){ hpRecoveryAmt+=std::ceil(GetHPRecoveryPct()*GetMaxHealth()); } hpRecoveryTimer=1; } if(hp4RecoveryTimer==0){ if(float(GetHP4RecoveryPct()*GetMaxHealth())>0.1_Pct){ hpRecoveryAmt+=std::ceil(GetHP4RecoveryPct()*GetMaxHealth()); } hp4RecoveryTimer=4; } if(hp6RecoveryTimer==0){ if(float(GetHP6RecoveryPct()*GetMaxHealth())>0.1_Pct){ hpRecoveryAmt+=std::ceil(GetHP6RecoveryPct()*GetMaxHealth()); } hp6RecoveryTimer=6; } if(GetHealth()nextLevelXP){ currentLevelXP-=nextLevelXP; level++; OnLevelUp(); } } } void Player::OnLevelUp(){ stats.SetBaseStat("Health",GetBaseStat("Health")+hpGrowthRate); stats.SetBaseStat("Attack",GetBaseStat("Attack")+atkGrowthRate); Heal(GetBaseStat("Health")); } const uint8_t Player::LevelCap()const{ return levelCap; } const uint8_t Player::Level()const{ return level; } const uint32_t Player::CurrentXP()const{ return currentLevelXP; } const uint32_t Player::TotalXP()const{ return totalXPEarned; } const uint32_t Player::NextLevelXPRequired()const{ if(Level()