onut::Entity* LevelGenerator::createRoom(int startX, int startY, const sRoom& room)
{
auto pRoomEntity = new onut::Entity();
pRoomEntity->setPosition({static_cast<float>(startX), static_cast<float>(startY), 0.f});
// Create floor. 5x5
for (int y = 0; y < room.h; ++y)
{
for (int x = 0; x < room.w; ++x)
{
const auto& tileId = room.tiles[(room.h - y - 1) * room.w * 2 + x * 2];
const auto& modifier = room.tiles[(room.h - y - 1) * room.w * 2 + x * 2 + 1];
onut::Entity* pEntity = nullptr;
// Solid
if (isWall(tileId))
{
pEntity = onut::EntityFactory::createMesh({static_cast<float>(x), static_cast<float>(y), 0.f},
"assets/meshes/wall1.mesh", "assets/materials/wall1.material");
}
else if (isFloor(tileId))
{
if (onut::randb(.04f))
{
pEntity = onut::EntityFactory::createMesh({static_cast<float>(x), static_cast<float>(y), 0.f},
"assets/meshes/floor2.mesh", "assets/materials/floor2.material");
}
else
{
pEntity = onut::EntityFactory::createMesh({static_cast<float>(x), static_cast<float>(y), 0.f},
"assets/meshes/floor.mesh", "assets/materials/floor.material");
}
}
// Addons
if (pEntity)
{
if (isTorch(tileId) && onut::randb(.85f))
{
pEntity->add(createTorch({0.f, 0.75f}));
}
pEntity->setRotation({0, 0, getAngle(modifier)});
}
pRoomEntity->add(pEntity);
}
}
return pRoomEntity;
}
//flood fills some muck starting at x,y
int
shMapLevel::floodMuck (int sx, int sy, shTerrainType type, int amount)
{
int x, y, i;
shDirection dirs[4] = { kNorth, kSouth, kEast, kWest };
shDirection dir;
int n = 0;
shVector <int> points;
points.add (xytop (sx, sy));
for (n = 0; n < amount;) {
int p;
if (0 == points.count ()) {
return n;
}
p = points.removeByIndex (RNG (points.count ()));
x = ptox (p);
y = ptoy (p);
if (!isFloor (x, y) or kSewage == getSquare (x, y) ->mTerr) {
continue;
}
n++;
if (RNG(2))
SETSQ (x, y, kSewage);
for (i = 0; i < 4; i++) {
dir = dirs[i];
int x2 = x;
int y2 = y;
if (moveForward (dir, &x2, &y2) and
RNG (20) >= points.count ())
{
points.add (xytop (x2, y2));
}
}
}
return n;
}
void LVL_Player::_collideUnduck()
{
_syncPosition();
if(isWarping) return;
#ifdef COLLIDE_DEBUG
qDebug() << "do unduck!";
#endif
//Detect collidable blocks!
QVector<PGE_Phys_Object*> bodies;
PGE_RectF posRectC = posRect;
posRectC.setTop(posRectC.top()-4.0f);
posRectC.setLeft(posRectC.left()+1.0f);
posRectC.setRight(posRectC.right()-1.0f);
posRectC.setBottom(posRectC.bottom()+ (ducking ? 0.0:(-posRect.height()/2.0))+4.0 );
LvlSceneP::s->queryItems(posRectC, &bodies);
forceCollideCenter=true;
for(PGE_RenderList::iterator it=bodies.begin();it!=bodies.end(); it++ )
{
PGE_Phys_Object*body=*it;
if(body==this) continue;
if(body->isPaused()) continue;
if(!body->isVisible()) continue;
solveCollision(body);
}
forceCollideCenter=false;
#ifdef COLLIDE_DEBUG
int hited=0;
PGE_RectF nearestRect;
#endif
bool resolveTop=false;
double _floorY=0;
QVector<PGE_Phys_Object*> blocks_to_hit;
if((!collided_center.isEmpty())&&(collided_bottom.isEmpty()))
{
for(PlayerColliders::iterator it=collided_center.begin(); it!=collided_center.end() ; it++)
{
PGE_Phys_Object *collided= *it;
LVL_Block *blk= static_cast<LVL_Block*>(collided);
if(blk) blocks_to_hit.push_back(blk);
}
for(PlayerColliders::iterator it=collided_top.begin(); it!=collided_top.end() ; it++)
{
PGE_Phys_Object *collided= *it;
LVL_Block *blk= static_cast<LVL_Block*>(collided);
if(blk) blocks_to_hit.push_back(blk);
}
if(isFloor(blocks_to_hit))
{
PGE_Phys_Object*nearest = nearestBlockY(blocks_to_hit);
if(nearest)
{
_floorY=nearest->posRect.bottom()+1.0;
resolveTop=true;
}
}
}
if(resolveTop)
{
posRect.setY(_floorY);
if(!blocks_to_hit.isEmpty())
{
PGE_Phys_Object*nearest_obj=nearestBlock(blocks_to_hit);
if(nearest_obj && (nearest_obj->type==PGE_Phys_Object::LVLBlock))
{
LVL_Block*nearest = static_cast<LVL_Block*>(nearest_obj);
resolveTop=true;
long npcid=nearest->data.npc_id;
nearest->hit();
if( nearest->setup->hitable || (npcid!=0) || (nearest->destroyed) || (nearest->setup->bounce) )
{
bump(false, speedY());
}
}
else
{
PGE_Audio::playSoundByRole(obj_sound_role::BlockHit);
}
}
setSpeedY(0.0);
_syncPosition();
}
_heightDelta = 0.0;
#ifdef COLLIDE_DEBUG
qDebug() << "unduck: blocks to hit"<< hited << " Nearest: "<<nearestRect.top() << nearestRect.bottom() << "are bottom empty: " << collided_bottom.isEmpty() << "bodies found: "<<bodies.size() << "bodies at center: "<<collided_center.size();
#endif
}
void LVL_Player::updateCollisions()
{
foot_contacts_map.clear();
_onGround=false;
foot_sl_contacts_map.clear();
contactedWarp = NULL;
contactedWithWarp=false;
climbable_map.clear();
environments_map.clear();
collided_top.clear();
collided_left.clear();
collided_right.clear();
collided_bottom.clear();
collided_center.clear();
collided_talkable_npc = NULL;
collided_slope=false;
collided_slope_direct=0;
collided_slope_angle_ratio=0.0f;
_velocityX_add=0;
_velocityY_add=0;
#ifdef COLLIDE_DEBUG
qDebug() << "=====Collision check and resolve begin======";
#endif
PGE_Phys_Object::updateCollisions();
bool resolveBottom=false;
bool resolveTop=false;
bool resolveLeft=false;
bool resolveRight=false;
double backupX=posRect.x();
double backupY=posRect.y();
double _wallX=posRect.x();
double _floorY=posRect.y();
double _floorX_vel=0.0;//velocities sum
double _floorX_num=0.0;//num of velocities
double _floorY_vel=0.0;//velocities sum
double _floorY_num=0.0;//num of velocities
QVector<PGE_Phys_Object*> floor_blocks;
QVector<PGE_Phys_Object*> wall_blocks;
QVector<PGE_Phys_Object*> blocks_to_hit;
//QVector<PGE_Phys_Object*> add_speed_to;
if(!collided_bottom.isEmpty())
{
for(PlayerColliders::iterator it=collided_bottom.begin(); it!=collided_bottom.end() ; it++)
{
PGE_Phys_Object *collided= *it;
switch(collided->type)
{
case PGE_Phys_Object::LVLBlock:
{
LVL_Block *blk= static_cast<LVL_Block*>(collided);
if(!blk) continue;
foot_contacts_map[(intptr_t)collided]=collided;
if(blk->slippery_surface) foot_sl_contacts_map[(intptr_t)collided]=collided;
if(blk->setup->bounce) blocks_to_hit.push_back(blk);
floor_blocks.push_back(blk);
_floorY_vel+=blk->speedYsum();
_floorY_num+=1.0;
_floorX_vel+=blk->speedXsum();
_floorX_num+=1.0;
} break;
case PGE_Phys_Object::LVLNPC:
{
LVL_Npc *npc= static_cast<LVL_Npc*>(collided);
if(!npc) continue;
foot_contacts_map[(intptr_t)collided]=collided;
if(npc->slippery_surface) foot_sl_contacts_map[(intptr_t)collided]=collided;
floor_blocks.push_back(npc);
_floorY_vel+=npc->speedYsum();
_floorY_num+=1.0;
_floorX_vel+=npc->speedXsum();
_floorX_num+=1.0;
}
break;
default:break;
}
}
if(_floorX_num!=0.0) _floorX_vel=_floorX_vel/_floorX_num;
if(_floorY_num!=0.0) _floorY_vel=_floorY_vel/_floorY_num;
if(!foot_contacts_map.isEmpty())
{
_velocityX_add=_floorX_vel;
_velocityY_add=_floorY_vel;
}
if(isFloor(floor_blocks))
{
PGE_Phys_Object*nearest = nearestBlockY(floor_blocks);
if(nearest)
{
LVL_Block *blk= static_cast<LVL_Block*>(nearest);
if(blk && (blk->shape!=LVL_Block::shape_rect))
{
if(blk->shape==LVL_Block::shape_tr_top_right)
{
_floorY = nearest->posRect.bottom()-SL_HeightTopRight(nearest);
if(_floorY<nearest->top()) _floorY=nearest->posRect.top();
else if(_floorY>nearest->bottom()) _floorY=nearest->posRect.bottom();
}
else
if(blk->shape==LVL_Block::shape_tr_top_left)
{
_floorY = nearest->posRect.bottom()-SL_HeightTopLeft(nearest);
if(_floorY<nearest->top()) _floorY=nearest->posRect.top();
else if(_floorY>nearest->bottom()) _floorY=nearest->posRect.bottom();
}
else
if(blk->shape==LVL_Block::shape_tr_bottom_right)
{
_floorY = nearest->posRect.top()+SL_HeightTopRight(nearest);
if(_floorY<nearest->top()) _floorY=nearest->posRect.top();
else if(_floorY>nearest->bottom()) _floorY=nearest->posRect.bottom();
}
else
if(blk->shape==LVL_Block::shape_tr_bottom_left)
{
_floorY = nearest->posRect.top()+SL_HeightTopLeft(nearest);
if(_floorY<nearest->top()) _floorY=nearest->posRect.top();
else if(_floorY>nearest->bottom()) _floorY=nearest->posRect.bottom();
}
else
_floorY = nearest->posRect.top();
_floorY-=posRect.height();
} else {
_floorY = nearest->posRect.top()-posRect.height();
}
resolveBottom=true;
}
}
else
{
foot_contacts_map.clear();
foot_sl_contacts_map.clear();
}
}
if(!collided_top.isEmpty())
{
blocks_to_hit.clear();
for(PlayerColliders::iterator it=collided_top.begin(); it!=collided_top.end() ; it++)
{
PGE_Phys_Object *body= *it;
if(body) blocks_to_hit.push_back(body);
if(body) floor_blocks.push_back(body);
}
if(isFloor(floor_blocks))
{
PGE_Phys_Object*nearest = nearestBlockY(blocks_to_hit);
if(nearest)
{
if(!resolveBottom)
{
LVL_Block *blk= static_cast<LVL_Block*>(nearest);
if(blk && (blk->shape!=LVL_Block::shape_rect))
{
if(blk->shape==LVL_Block::shape_tr_bottom_right)
{
_floorY = nearest->posRect.top()+SL_HeightTopLeft(nearest);
if(_floorY<nearest->top()) _floorY=nearest->posRect.top();
else if(_floorY>nearest->bottom()) _floorY=nearest->posRect.bottom();
}
else
if(blk->shape==LVL_Block::shape_tr_bottom_left)
{
_floorY = nearest->posRect.top()+SL_HeightTopRight(nearest);
if(_floorY<nearest->top()) _floorY=nearest->posRect.top();
else if(_floorY>nearest->bottom()) _floorY=nearest->posRect.bottom();
}
}
else
_floorY = nearest->posRect.bottom();
_floorY+=1;
}
resolveTop=true;
}
}
}
bool wall=false;
if(!collided_left.isEmpty())
{
for(PlayerColliders::iterator it=collided_left.begin(); it!=collided_left.end() ; it++)
{
PGE_Phys_Object *body= *it;
if(body) wall_blocks.push_back(body);
}
if(isWall(wall_blocks))
{
PGE_Phys_Object*nearest = nearestBlock(wall_blocks);
if(nearest)
{
_wallX = nearest->posRect.right();
resolveLeft=true;
wall=true;
}
}
}
if(!collided_right.isEmpty())
{
wall_blocks.clear();
for(PlayerColliders::iterator it=collided_right.begin(); it!=collided_right.end() ; it++)
{
PGE_Phys_Object *body= *it;
if(body) wall_blocks.push_back(body);
}
if(isWall(wall_blocks))
{
PGE_Phys_Object*nearest = nearestBlock(wall_blocks);
if(nearest)
{
_wallX = nearest->posRect.left()-posRect.width();
resolveRight=true;
wall=true;
}
}
}
if((resolveLeft||resolveRight) && (resolveTop||resolveBottom))
{
//check if on floor or in air
bool _iswall=false;
bool _isfloor=false;
posRect.setX(_wallX);
_isfloor=isFloor(floor_blocks);
posRect.setPos(backupX, _floorY);
_iswall=isWall(wall_blocks);
posRect.setX(backupX);
if(!_iswall && _isfloor)
{
resolveLeft=false;
resolveRight=false;
}
if(!_isfloor && _iswall)
{
resolveTop=false;
resolveBottom=false;
}
}
if(resolveLeft || resolveRight)
{
posRect.setX(_wallX);
setSpeedX(0);
_velocityX_add=0;
}
if(resolveBottom || resolveTop)
{
posRect.setY(_floorY);
float bumpSpeed=speedY();
setSpeedY(_floorY_vel);
_velocityY_add=0;
if(!blocks_to_hit.isEmpty())
{
PGE_Phys_Object* nearestObj=nearestBlock(blocks_to_hit);
if(nearestObj && (nearestObj->type==PGE_Phys_Object::LVLBlock))
{
LVL_Block*nearest = static_cast<LVL_Block*>(nearestObj);
long npcid=nearest->data.npc_id;
if(resolveBottom) nearest->hit(LVL_Block::down); else nearest->hit();
if( nearest->setup->hitable || (npcid!=0) || (nearest->destroyed) || nearest->setup->bounce )
bump(resolveBottom,
(resolveBottom ? physics_cur.velocity_jump_bounce : bumpSpeed),
physics_cur.jump_time_bounce);
}
else
{
PGE_Audio::playSoundByRole(obj_sound_role::BlockHit);
}
}
if(resolveTop && !bumpUp && !bumpDown )
jumpTime=0;
}
else
{
posRect.setY(backupY);
}
_stucked = ( (!collided_center.isEmpty()) && (!collided_bottom.isEmpty()) && (!wall) );
#ifdef COLLIDE_DEBUG
qDebug() << "=====Collision check and resolve end======";
#endif
}
