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AdventuresInLestoria/Crawler/SlimeKing.cpp

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/*
License (OLC-3)
~~~~~~~~~~~~~~~
Copyright 2018 - 2022 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.
*/
#include "Monster.h"
#include "MonsterStrategyHelpers.h"
#include "DEFINES.h"
#include "Crawler.h"
#include "util.h"
#include "safemap.h"
#include "Effect.h"
#include "FallingDebris.h"
#include "MonsterAttribute.h"
INCLUDE_game
INCLUDE_BULLET_LIST
INCLUDE_ANIMATION_DATA
INCLUDE_MONSTER_NAME_DATA
typedef Attribute A;
void Monster::STRATEGY::SLIMEKING(Monster&m,float fElapsedTime,int strategyNumber){
float bulletSpd=ConfigFloat("BulletSpd")/100*24;
m.F(A::SHOOT_TIMER)=std::max(0.f,m.F(A::SHOOT_TIMER)-fElapsedTime);
m.F(A::SHOOT_RING_TIMER)=std::max(0.f,m.F(A::SHOOT_RING_TIMER)-fElapsedTime);
m.F(A::SHOOT_RING_DELAY)=std::max(0.f,m.F(A::SHOOT_RING_DELAY)-fElapsedTime);
m.F(A::JUMP_LANDING_TIMER)=std::max(0.f,m.F(A::JUMP_LANDING_TIMER)-fElapsedTime);
m.F(A::CASTING_TIMER)=std::max(0.f,m.F(A::CASTING_TIMER)-fElapsedTime);
m.F(A::RUN_AWAY_TIMER)=std::max(0.f,m.F(A::RUN_AWAY_TIMER)-fElapsedTime);
const auto ShootBulletRing=[&](float angleOffset){
int bulletCount=ConfigInt("Phase1.RingBulletCount");
for(int i=0;i<bulletCount;i++){
float angle=((2*PI)/bulletCount)*i+angleOffset;
BULLET_LIST.emplace_back(std::make_unique<Bullet>(m.GetPos(),vf2d{cos(angle),sin(angle)}*bulletSpd,6,ConfigInt("ProjectileDamage"),m.OnUpperLevel(),false,YELLOW,vf2d{6,6}));
}
};
const auto Landed=[&ShootBulletRing,&m](int currentPhase){
if(currentPhase==1){
ShootBulletRing(m.F(A::SHOOT_RING_OFFSET));
}
};
const auto TransitionPhase=[&](int newPhase){
const int MAX_ATTEMPTS=100; //Maximum number of tries to find a valid location.
Player*player=game->GetPlayer();
m.I(A::PATTERN_REPEAT_COUNT)=0;
const auto PositionInRangeOfPlayer=[&player](vf2d&pos,float radius){
return geom2d::line<float>(player->GetPos(),pos).length()<=player->GetSizeMult()*12*2+radius;
};
const auto SpawnMonsterFromConfig=[&](int phase){
std::string spawnMonster=ConfigStringArr("Phase"+std::to_string(phase)+".MonsterSpawnOnChange",0);
int spawnCount=ConfigIntArr("Phase"+std::to_string(phase)+".MonsterSpawnOnChange",1);
for(int i=0;i<spawnCount;i++){
float randomAngle=util::random(2*PI);
vf2d spawnPos=m.pos+vf2d{cos(randomAngle),sin(randomAngle)}*m.GetSizeMult()*12;
for(int attempts=0;attempts<MAX_ATTEMPTS&&PositionInRangeOfPlayer(spawnPos,MONSTER_NAME_DATA[spawnMonster]->GetSizeMult()*12);attempts++){
randomAngle=util::random(2*PI);
spawnPos=m.pos+vf2d{cos(randomAngle),sin(randomAngle)}*m.GetSizeMult()*12;
}
game->SpawnMonster(spawnPos,MONSTER_NAME_DATA[spawnMonster]);
}
};
switch(newPhase){
case 2:{
SpawnMonsterFromConfig(2);
}break;
case 3:{
SpawnMonsterFromConfig(3);
}break;
case 4:{
SpawnMonsterFromConfig(4);
}break;
case 5:{
}break;
}
};
const auto StartJumpTowardsPlayer=[&](float jumpDuration,float recoveryTime,float jumpMoveSpd){
m.F(A::JUMP_ORIGINAL_LANDING_TIMER)=m.F(A::JUMP_LANDING_TIMER)=jumpDuration;
m.B(A::JUMP_TOWARDS_PLAYER)=true;
m.F(A::RECOVERY_TIME)=recoveryTime;
m.F(A::JUMP_MOVE_SPD)=jumpMoveSpd;
m.SetState(State::JUMP);
};
const auto StartJump=[&](float jumpDuration,vf2d targetPos,float recoveryTime,float jumpMoveSpd){
m.F(A::JUMP_ORIGINAL_LANDING_TIMER)=m.F(A::JUMP_LANDING_TIMER)=jumpDuration;
m.V(A::JUMP_TARGET_POS)=targetPos;
m.B(A::JUMP_TOWARDS_PLAYER)=false;
m.F(A::RECOVERY_TIME)=recoveryTime;
m.F(A::JUMP_MOVE_SPD)=jumpMoveSpd;
m.SetState(State::JUMP);
};
const auto Recovered=[&](){
switch(m.phase){
case 2:{
switch(m.I(A::JUMP_COUNT)){
case 1:
case 2:{ //After the 1st and 2nd jumps we still have another jump to accomplish.
m.I(A::JUMP_COUNT)++;
float jumpTime=ConfigFloatArr("Phase2.Jump["+std::to_string(m.I(A::JUMP_COUNT))+"]",0);
float jumpSpd=ConfigFloatArr("Phase2.Jump["+std::to_string(m.I(A::JUMP_COUNT))+"]",1);
StartJumpTowardsPlayer(jumpTime,0.2,jumpSpd);
}break;
default:{
m.PerformIdleAnimation();
m.SetState(State::NORMAL);
}
}
}break;
}
};
if(m.F(A::RUN_AWAY_TIMER)>0){
Monster::STRATEGY::RUN_AWAY(m,fElapsedTime,4);
/*HACK ALERT!! This is kind of a hack. If the Run Away script changes the 4 would be inaccurate, but the run away script doesn't use this value so it's probably fine.*/
return;
}
if(m.GetState()==State::RECOVERY){
m.F(A::RECOVERY_TIME)=std::max(0.f,m.F(A::RECOVERY_TIME)-fElapsedTime);
if(m.F(A::RECOVERY_TIME)==0){
m.SetState(State::NORMAL);
Recovered();
}
return;
}
if(m.GetState()==State::JUMP){
float jumpLandingTimerRatio=m.F(A::JUMP_LANDING_TIMER)/m.F(A::JUMP_ORIGINAL_LANDING_TIMER);
vf2d jumpTargetPos=m.V(A::JUMP_TARGET_POS);
if(m.B(A::JUMP_TOWARDS_PLAYER)){
jumpTargetPos=game->GetPlayer()->GetPos();
}
if(m.GetPos().x>jumpTargetPos.x){
m.SetX(std::max(jumpTargetPos.x,m.GetPos().x-m.F(A::JUMP_MOVE_SPD)*game->GetElapsedTime()));
} else
if(m.GetPos().x<jumpTargetPos.x){
m.SetX(std::min(jumpTargetPos.x,m.GetPos().x+m.F(A::JUMP_MOVE_SPD)*game->GetElapsedTime()));
}
if(m.GetPos().y>jumpTargetPos.y){
m.SetY(std::max(jumpTargetPos.y,m.GetPos().y-m.F(A::JUMP_MOVE_SPD)*game->GetElapsedTime()));
} else
if(m.GetPos().y<jumpTargetPos.y){
m.SetY(std::min(jumpTargetPos.y,m.GetPos().y+m.F(A::JUMP_MOVE_SPD)*game->GetElapsedTime()));
}
if(m.F(A::JUMP_LANDING_TIMER)>=m.F(A::JUMP_ORIGINAL_LANDING_TIMER)/2){
m.SetZ(util::lerp(0,ConfigInt("JumpHeight"),1-jumpLandingTimerRatio));
}else{
m.SetZ(util::lerp(0,ConfigInt("JumpHeight"),jumpLandingTimerRatio*2));
}
if(m.F(A::JUMP_LANDING_TIMER)==0){
m.state=State::RECOVERY;
game->SetupWorldShake(0.6);
geom2d::line<float>lineToPlayer(m.GetPos(),game->GetPlayer()->GetPos());
float dist=lineToPlayer.length();
for(int i=0;i<200;i++){
float randomDir=util::random(2*PI);
game->AddEffect(std::make_unique<FallingDebris>(m.GetPos()+vf2d{cos(randomDir),sin(randomDir)}*m.GetSizeMult()*8,util::random(1),"circle.png",m.OnUpperLevel(),vf2d{1,1},0.5,vf2d{cos(randomDir)*util::random(5),sin(randomDir)*-util::random(15)-5}*30,BLACK),true);
}
if(dist<12*m.GetSizeMult()){
game->GetPlayer()->Hurt(ConfigInt("JumpAttackDamage"),m.OnUpperLevel(),m.GetZ());
if(dist<0.001){
float randomDir=util::random(2*PI);
lineToPlayer={m.GetPos(),m.GetPos()+vf2d{cos(randomDir),sin(randomDir)}*1};
}
game->GetPlayer()->Knockback(lineToPlayer.vector().norm()*ConfigInt("JumpKnockbackFactor"));
if(m.phase!=2){ //In phase 2, the player can get slammed multiple times. No iframes for messing up.
game->GetPlayer()->SetIframes(1);
}
}
m.SetZ(0);
Landed(m.phase);
m.SetStrategyDrawFunction([](Crawler*game){});
} else
if(m.F(A::JUMP_LANDING_TIMER)<=ConfigFloat("JumpWarningIndicatorTime")){
m.SetStrategyDrawFunction([&](Crawler*game){
Decal*dec=ANIMATION_DATA["range_indicator.png"].GetFrame(game->GetElapsedTime()).GetSourceImage()->Decal();
game->view.DrawRotatedDecal(m.GetPos(),dec,0,dec->sprite->Size()/2,vf2d{m.GetSizeMult(),m.GetSizeMult()},RED);
});
}
return;
}
if(m.GetState()==State::CASTING){
m.UpdateAnimation("monsters/Slime King - Cast.png");
if(m.F(A::CASTING_TIMER)==0){
m.SetState(State::NORMAL);
m.I(A::JUMP_COUNT)++;
float jumpTime=ConfigFloatArr("Phase2.Jump["+std::to_string(m.I(A::JUMP_COUNT))+"]",0);
float jumpSpd=ConfigFloatArr("Phase2.Jump["+std::to_string(m.I(A::JUMP_COUNT))+"]",1);
StartJumpTowardsPlayer(jumpTime,0.2,jumpSpd);
}
return;
}
switch(m.phase){
case 0:{
m.size=ConfigInt("Phase1.Size")/100;
m.diesNormally=false;
m.F(A::IFRAME_TIME_UPON_HIT)=0;
m.iframe_timer=ConfigFloat("Phase5.IframeTimePerHit");
m.phase=ConfigInt("StartPhase");
}break;
case 1:{
if(m.hp<=m.maxhp*ConfigFloat("Phase2.Change")/100){
m.phase=2;
m.SetSize(ConfigFloat("Phase2.Size")/100,false);
TransitionPhase(m.phase);
return;
}
if(m.F(A::SHOOT_RING_TIMER)==0){
if(m.I(A::PATTERN_REPEAT_COUNT)>=ConfigInt("Phase1.JumpAfter")){
StartJumpTowardsPlayer(ConfigFloat("Phase1.AirborneTime"),ConfigFloat("Phase1.LandingRecoveryTime"),ConfigFloat("JumpMoveSpd"));
m.I(A::PATTERN_REPEAT_COUNT)=0;
return;
}
m.I(A::SHOOT_RING_COUNTER)=ConfigInt("Phase1.ShootRingCount")-1;
m.F(A::SHOOT_RING_DELAY)=ConfigFloat("Phase1.ShootRingDelay");
ShootBulletRing(m.F(A::SHOOT_RING_OFFSET));
m.F(A::SHOOT_RING_TIMER)=ConfigFloat("Phase1.ShootRepeatTime");
m.B(A::SHOOT_RING_RIGHT)=bool(rand()%2);
m.I(A::PATTERN_REPEAT_COUNT)++;
}
if(m.I(A::SHOOT_RING_COUNTER)>0){
if(m.F(A::SHOOT_RING_DELAY)==0){
m.I(A::SHOOT_RING_COUNTER)--;
m.F(A::SHOOT_RING_DELAY)=ConfigFloat("Phase1.ShootRingDelay");
if(m.B(A::SHOOT_RING_RIGHT)){
m.F(A::SHOOT_RING_OFFSET)+=util::degToRad(ConfigFloat("Phase1.RingOffset"));
}else{
m.F(A::SHOOT_RING_OFFSET)-=util::degToRad(ConfigFloat("Phase1.RingOffset"));
}
ShootBulletRing(m.F(A::SHOOT_RING_OFFSET));
}
}
}break;
case 2:{
if(m.hp<=m.maxhp*ConfigFloat("Phase3.Change")/100){
m.phase=3;
m.SetSize(ConfigFloat("Phase3.Size")/100,false);
TransitionPhase(m.phase);
return;
}
if(m.F(A::SHOOT_TIMER)==0){
m.F(A::SHOOT_TIMER)=ConfigInt("Phase2.ShootRate");
m.I(A::PATTERN_REPEAT_COUNT)++;
int bulletCount=ConfigInt("Phase2.ShootProjectileCount");
for(int i=0;i<bulletCount;i++){
float initialAngle=util::angleTo(m.GetPos(),game->GetPlayer()->GetPos());
float angle=(i-(bulletCount/2))*util::degToRad(ConfigFloat("Phase2.ShootAngleSpread"))+initialAngle;
BULLET_LIST.emplace_back(std::make_unique<Bullet>(m.GetPos(),vf2d{cos(angle),sin(angle)}*bulletSpd,6,ConfigInt("ProjectileDamage"),m.OnUpperLevel(),false,YELLOW,vf2d{6,6}));
}
}
if(m.I(A::PATTERN_REPEAT_COUNT)>ConfigInt("Phase2.ShootCount")){
m.I(A::PATTERN_REPEAT_COUNT)=0;
m.I(A::JUMP_COUNT)=0;
m.F(A::CASTING_TIMER)=5;
m.SetState(State::CASTING);
}
}break;
case 3:{
if(m.hp<=m.maxhp*ConfigFloat("Phase4.Change")/100){
m.phase=4;
m.SetSize(ConfigFloat("Phase4.Size")/100,false);
m.AddBuff(BuffType::SLOWDOWN,99999,ConfigFloat("Phase4.MoveSpdModifier")/100);
TransitionPhase(m.phase);
return;
}
if(m.I(A::PATTERN_REPEAT_COUNT)==0){
StartJumpTowardsPlayer(ConfigFloat("Phase3.JumpDelayTime"),ConfigFloat("Phase3.JumpRecoveryTime"),ConfigFloat("Phase3.JumpMoveSpd"));
m.I(A::PATTERN_REPEAT_COUNT)++;
}else
if(m.I(A::PATTERN_REPEAT_COUNT)<4&&m.F(A::SHOOT_TIMER)==0){
m.F(A::SHOOT_TIMER)=ConfigFloat("Phase3.ShootRate");
m.I(A::PATTERN_REPEAT_COUNT)++;
int bulletCount=ConfigInt("Phase3.ShootProjectileCount");
for(int i=0;i<bulletCount;i++){
float initialAngle=util::angleTo(m.GetPos(),game->GetPlayer()->GetPos());
float angle=(i-(bulletCount/2))*util::degToRad(ConfigFloat("Phase3.ShootAngleSpread"))+initialAngle;
BULLET_LIST.emplace_back(std::make_unique<Bullet>(m.GetPos(),vf2d{cos(angle),sin(angle)}*bulletSpd,6,ConfigInt("ProjectileDamage"),m.OnUpperLevel(),false,YELLOW,vf2d{6,6}));
}
}else
if(m.I(A::PATTERN_REPEAT_COUNT)>=4){
m.F(A::RECOVERY_TIME)=ConfigFloat("Phase3.PhaseRecoveryTime");
m.SetState(State::RECOVERY);
m.I(A::PATTERN_REPEAT_COUNT)=0;
}
}break;
case 4:{
if(m.hp<=1){ //HP can't reach 0 when the dies normally flag is on.
m.phase=5;
m.F(A::IFRAME_TIME_UPON_HIT)=1;
m.I(A::HITS_UNTIL_DEATH)=int(m.GetSizeMult()*100/ConfigFloat("Phase5.SizeLossPerHit"))-1;
TransitionPhase(m.phase);
return;
}
if(m.I(A::PHASE_REPEAT_COUNT)>=5){
m.I(A::PHASE_REPEAT_COUNT)=0;
float jumpAngle=util::angleTo(m.GetPos(),game->GetCurrentMap().MapSize*game->GetCurrentMap().tilewidth/2); //We jump towards the center to keep the player from constantly dealing with a stuck boss.
float jumpDistance=ConfigFloat("Phase4.JumpDistance")/100*game->GetCurrentMap().tilewidth;
float jumpSpd=jumpDistance/ConfigFloat("Phase4.JumpDuration");
StartJump(ConfigFloat("Phase4.JumpDuration"),m.GetPos()+vf2d{cos(jumpAngle)*jumpDistance,sin(jumpAngle)*jumpDistance},0,jumpSpd);
}else
if(m.I(A::PATTERN_REPEAT_COUNT)<5&&m.F(A::SHOOT_TIMER)==0){
m.I(A::PATTERN_REPEAT_COUNT)++;
m.F(A::SHOOT_TIMER)=ConfigFloat("Phase4.ShootRate");
float bulletAngle=util::angleTo(m.GetPos(),game->GetPlayer()->GetPos());
float spreadAngle=util::degToRad(ConfigFloat("Phase4.RandomOffsetAngle"));
bulletAngle+=util::random(spreadAngle*2)-spreadAngle;
BULLET_LIST.emplace_back(std::make_unique<Bullet>(m.GetPos(),vf2d{cos(bulletAngle),sin(bulletAngle)}*bulletSpd,6,ConfigInt("ProjectileDamage"),m.OnUpperLevel(),false,YELLOW,vf2d{6,6}));
}else
if(m.I(A::PATTERN_REPEAT_COUNT)==5){
m.I(A::PATTERN_REPEAT_COUNT)++;
m.F(A::RUN_AWAY_TIMER)=ConfigFloat("Phase4.RunAwayTime");
}else
if(m.I(A::PATTERN_REPEAT_COUNT)==6&&m.F(A::RUN_AWAY_TIMER)==0){
m.F(A::RECOVERY_TIME)=ConfigFloat("Phase4.WaitTime");
m.SetState(State::RECOVERY);
m.I(A::PATTERN_REPEAT_COUNT)=0;
m.I(A::PHASE_REPEAT_COUNT)++;
}
}break;
case 5:{
float targetSize=ConfigFloat("Phase5.SizeLossPerHit")/100*m.I(A::HITS_UNTIL_DEATH);
Monster::STRATEGY::RUN_AWAY(m,fElapsedTime,4);
if(targetSize>0){
m.SetSize(targetSize,false);
}else{
m.diesNormally=true;
}
}break;
}
}