Performance improvements, added flickering cursor light.

develop
Warmist 2013-06-23 20:45:05 +03:00
parent 2c49c9e83c
commit cb6130066d
3 changed files with 88 additions and 24 deletions

@ -62,6 +62,7 @@ void lightingEngineViewscreen::reinit()
size_t size=w*h; size_t size=w*h;
lightMap.resize(size,lightCell(1,1,1)); lightMap.resize(size,lightCell(1,1,1));
ocupancy.resize(size); ocupancy.resize(size);
lights.resize(size);
} }
void plotCircle(int xm, int ym, int r,std::function<void(int,int)> setPixel) void plotCircle(int xm, int ym, int r,std::function<void(int,int)> setPixel)
{ {
@ -105,18 +106,22 @@ bool lightingEngineViewscreen::lightUpCell(lightCell& power,int dx,int dy,int tx
size_t tile=getIndex(tx,ty); size_t tile=getIndex(tx,ty);
float dsq=dx*dx+dy*dy; float dsq=dx*dx+dy*dy;
lightCell& v=ocupancy[tile]; lightCell& v=ocupancy[tile];
lightSource& ls=lights[tile];
bool wallhack=false; bool wallhack=false;
bool outsidehack=false;
if(v.r+v.g+v.b==0) if(v.r+v.g+v.b==0)
wallhack=true; wallhack=true;
if(v.r<0)
outsidehack=true; if (dsq>0 && !wallhack)
if (dsq>0 && !wallhack && !outsidehack)
{ {
power.r=power.r*(pow(v.r,dsq)); power.r=power.r*(pow(v.r,dsq));
power.g=power.g*(pow(v.g,dsq)); power.g=power.g*(pow(v.g,dsq));
power.b=power.b*(pow(v.b,dsq)); power.b=power.b*(pow(v.b,dsq));
} }
if(ls.radius>0 && dsq>0)
{
if(power<ls.power)
return false;
}
//float dt=sqrt(dsq); //float dt=sqrt(dsq);
lightCell oldCol=lightMap[tile]; lightCell oldCol=lightMap[tile];
lightCell ncol=blend(power,oldCol); lightCell ncol=blend(power,oldCol);
@ -124,8 +129,6 @@ bool lightingEngineViewscreen::lightUpCell(lightCell& power,int dx,int dy,int tx
if(wallhack) if(wallhack)
return false; return false;
if(dsq>0 && outsidehack)
return false;
float pwsq=power.r*power.r+power.g*power.g+power.b*power.b; float pwsq=power.r*power.r+power.g*power.g+power.b*power.b;
return pwsq>levelDim*levelDim; return pwsq>levelDim*levelDim;
} }
@ -142,17 +145,32 @@ void lightingEngineViewscreen::doFovs()
{ {
mapPort=getMapViewport(); mapPort=getMapViewport();
using namespace std::placeholders; using namespace std::placeholders;
for(size_t i=0;i<lights.size();i++)
{ for(int i=mapPort.first.x;i<mapPort.second.x;i++)
lightSource& csource=lights[i]; for(int j=mapPort.first.y;j<mapPort.second.y;j++)
plotCircle(csource.pos.x,csource.pos.y,csource.radius,std::bind(&lightingEngineViewscreen::doRay,this,csource.power,csource.pos.x,csource.pos.y,_1,_2)); {
} lightSource& csource=lights[getIndex(i,j)];
if(csource.radius>0)
{
lightCell power=csource.power;
int radius =csource.radius;
if(csource.flicker)
{
float flicker=(rand()/(float)RAND_MAX)/2.0f+0.5f;
radius*=flicker;
power=power*flicker;
}
plotCircle(i,j,radius,
std::bind(&lightingEngineViewscreen::doRay,this,power,i,j,_1,_2));
}
}
} }
void lightingEngineViewscreen::calculate() void lightingEngineViewscreen::calculate()
{ {
rect2d vp=getMapViewport(); rect2d vp=getMapViewport();
const lightCell dim(levelDim,levelDim,levelDim); const lightCell dim(levelDim,levelDim,levelDim);
lightMap.assign(lightMap.size(),lightCell(1,1,1)); lightMap.assign(lightMap.size(),lightCell(1,1,1));
lights.assign(lights.size(),lightSource());
for(int i=vp.first.x;i<vp.second.x;i++) for(int i=vp.first.x;i<vp.second.x;i++)
for(int j=vp.first.y;j<vp.second.y;j++) for(int j=vp.first.y;j<vp.second.y;j++)
{ {
@ -177,9 +195,22 @@ void lightingEngineViewscreen::updateWindow()
myRenderer->invalidate(); myRenderer->invalidate();
//std::copy(lightMap.begin(),lightMap.end(),myRenderer->lightGrid.begin()); //std::copy(lightMap.begin(),lightMap.end(),myRenderer->lightGrid.begin());
} }
void lightSource::combine(const lightSource& other)
{
power=blend(power,other.power);
radius=std::max(other.radius,radius);//hack... but who cares
}
bool lightingEngineViewscreen::addLight(int tileId,const lightSource& light)
{
bool wasLight=lights[tileId].radius>0;
lights[tileId].combine(light);
if(light.flicker)
lights[tileId].flicker=true;
return wasLight;
}
void lightingEngineViewscreen::doOcupancyAndLights() void lightingEngineViewscreen::doOcupancyAndLights()
{ {
lights.clear();
rect2d vp=getMapViewport(); rect2d vp=getMapViewport();
int window_x=*df::global::window_x; int window_x=*df::global::window_x;
@ -192,8 +223,9 @@ void lightingEngineViewscreen::doOcupancyAndLights()
{ {
int wx=x-window_x+vp.first.x; int wx=x-window_x+vp.first.x;
int wy=y-window_y+vp.first.y; int wy=y-window_y+vp.first.y;
lightCell& curCell=ocupancy[getIndex(wx,wy)]; int tile=getIndex(wx,wy);
curCell=lightCell(0.8f,0.8f,0.8f); lightCell& curCell=ocupancy[tile];
curCell=lightCell(0.85f,0.85f,0.85f);
df::tiletype* type = Maps::getTileType(x,y,window_z); df::tiletype* type = Maps::getTileType(x,y,window_z);
if(!type) if(!type)
continue; continue;
@ -204,7 +236,7 @@ void lightingEngineViewscreen::doOcupancyAndLights()
if(!o || !d ) if(!o || !d )
continue; continue;
if(shape==df::tiletype_shape::BROOK_BED || shape==df::tiletype_shape::WALL || shape==df::tiletype_shape::TREE || o->bits.building) if(shape==df::tiletype_shape::BROOK_BED || shape==df::tiletype_shape::WALL || shape==df::tiletype_shape::TREE )
{ {
curCell=lightCell(0,0,0); curCell=lightCell(0,0,0);
} }
@ -215,16 +247,19 @@ void lightingEngineViewscreen::doOcupancyAndLights()
//todo constructions //todo constructions
//lights //lights
if((d->bits.liquid_type && d->bits.flow_size>0)|| (d2 && d2->bits.liquid_type && d2->bits.flow_size>0)) if((d->bits.liquid_type && d->bits.flow_size>0)||
(
(shape==df::tiletype_shape::EMPTY || shape==df::tiletype_shape::RAMP_TOP || shape==df::tiletype_shape::STAIR_DOWN || shape==df::tiletype_shape::STAIR_UPDOWN )
&& d2 && d2->bits.liquid_type && d2->bits.flow_size>0)
)
{ {
lightSource lava={lightCell(0.8f,0.2f,0.2f),5,coord2d(wx,wy)}; lightSource lava(lightCell(0.8f,0.2f,0.2f),5);
lights.push_back(lava); addLight(tile,lava);
} }
if(d->bits.outside) if(d->bits.outside)
{ {
lightSource sun={lightCell(1,1,1),25,coord2d(wx,wy)}; lightSource sun(lightCell(1,1,1),15);
lights.push_back(sun); addLight(tile,sun);
curCell=lightCell(-1,-1,-1);//Marking as outside so no calculation is done on it
} }
} }
@ -243,6 +278,7 @@ void lightingEngineViewscreen::doOcupancyAndLights()
df::coord2d pos=f->pos; df::coord2d pos=f->pos;
int wx=pos.x-window_x+vp.first.x; int wx=pos.x-window_x+vp.first.x;
int wy=pos.y-window_y+vp.first.y; int wy=pos.y-window_y+vp.first.y;
int tile=getIndex(wx,wy);
if(wx>=vp.first.x && wy>=vp.first.y && wx<=vp.second.x && wy<=vp.second.y) if(wx>=vp.first.x && wy>=vp.first.y && wx<=vp.second.x && wy<=vp.second.y)
{ {
lightCell fireColor; lightCell fireColor;
@ -258,10 +294,19 @@ void lightingEngineViewscreen::doOcupancyAndLights()
{ {
fireColor=lightCell(0.64f,0.0f,0.0f); fireColor=lightCell(0.64f,0.0f,0.0f);
} }
lightSource fire={fireColor,f->density/5,coord2d(wx,wy)}; lightSource fire(fireColor,f->density/5);
lights.push_back(fire); addLight(tile,fire);
} }
} }
} }
} }
if(df::global::cursor->x>-30000)
{
lightSource cursor(lightCell(0.96f,0.84f,0.03f),11);
cursor.flicker=true;
int wx=df::global::cursor->x-window_x+vp.first.x;
int wy=df::global::cursor->y-window_y+vp.first.y;
int tile=getIndex(wx,wy);
addLight(tile,cursor);
}
} }

@ -79,7 +79,21 @@ struct lightSource
{ {
lightCell power; lightCell power;
int radius; int radius;
df::coord2d pos; bool flicker;
lightSource():power(0,0,0),radius(0),flicker(false)
{
}
lightSource(lightCell power,int radius):power(power),radius(radius),flicker(false)
{
}
float powerSquared()const
{
return power.r*power.r+power.g*power.g+power.b*power.b;
}
void combine(const lightSource& other);
}; };
class lightingEngineViewscreen:public lightingEngine class lightingEngineViewscreen:public lightingEngine
{ {
@ -96,6 +110,7 @@ private:
void doRay(lightCell power,int cx,int cy,int tx,int ty); void doRay(lightCell power,int cx,int cy,int tx,int ty);
void doFovs(); void doFovs();
bool lightUpCell(lightCell& power,int dx,int dy,int tx,int ty); bool lightUpCell(lightCell& power,int dx,int dy,int tx,int ty);
bool addLight(int tileId,const lightSource& light);
size_t inline getIndex(int x,int y) size_t inline getIndex(int x,int y)
{ {
return x*h+y; return x*h+y;

@ -203,6 +203,10 @@ struct lightCell
{ {
return lightCell(r+other.r,g+other.g,b+other.b); return lightCell(r+other.r,g+other.g,b+other.b);
} }
bool operator<(const lightCell& other)
{
return r<other.r && g<other.g && b<other.b;
}
}; };
struct renderer_test : public renderer_wrap { struct renderer_test : public renderer_wrap {
private: private: