/* === M E T H O D S ======================================================= */
Point Blur::operator ()(const Point &pos) const
-{
+{
Point blurpos(pos);
-
+
switch(type)
{
case CROSS:
blurpos[1]+=(Vector::value_type)( (signed)(RAND_MAX/2)-(signed)rand() )/(Vector::value_type)(RAND_MAX) * size[1];
break;
}
-
+
return blurpos;
}
Tmp2=SR0+Tmp1;
SR0=Tmp1;
surface[y][x]=(SC0[x]+Tmp2)/4;
- SC0[x]=Tmp2;
+ SC0[x]=Tmp2;
}
}
delete [] SC0;
SR0=Tmp1;
Tmp1=SR1+Tmp2;
SR1=Tmp2;
-
+
// Column Machine
Tmp2=SC0[x]+Tmp1;
SC0[x]=Tmp1;
if(y&&x)
surface[y-1][x-1]=(SC1[x]+Tmp2)/16;
SC1[x]=Tmp2;
- }
+ }
}
delete [] SC0;
T SR[n-1];
T *SC[n-1];
-
+
for(i=0;i<n-1;i++)
{
SC[i]=new T[w+half_n];
}
//THE GOOD ONE!!!!!!!!!
-bool Blur::operator ()(const Surface &surface,
- const Vector &resolution,
+bool Blur::operator ()(const Surface &surface,
+ const Vector &resolution,
Surface &out) const
{
int w = surface.get_w(),
h = surface.get_h();
-
+
if(w == 0 || h == 0 || resolution[0] == 0 || resolution[1] == 0) return false;
-
+
const Real pw = resolution[0]/w,
ph = resolution[1]/h;
-
+
int halfsizex = (int) (abs(size[0]*.5/pw) + 1),
- halfsizey = (int) (abs(size[1]*.5/ph) + 1);
-
+ halfsizey = (int) (abs(size[1]*.5/ph) + 1);
+
int x,y;
-
+
SuperCallback blurcall(cb,0,5000,5000);
-
+
Surface worksurface(w,h);
-
+
//synfig::info("Blur: check surface = %s", surface_valid(surface)?"true":"false");
-
+
// Premultiply the alpha
for(y=0;y<h;y++)
{
worksurface[y][x] = a;
}
}
-
+
switch(type)
{
case Blur::DISC: // D I S C ----------------------------------------------------------
- {
+ {
int bw = halfsizex;
int bh = halfsizey;
-
+
if(size[0] && size[1] && w*h>2)
{
int x2,y2;
Surface tmp_surface(worksurface);
-
+
for(y=0;y<h;y++)
{
for(x=0;x<w;x++)
//accumulate all the pixels in an ellipse of w,h about the current pixel
Color color=Color::alpha();
int total=0;
-
+
for(y2=-bh;y2<=bh;y2++)
{
for(x2=-bw;x2<=bw;x2++)
float tmp_y=(float)y2/bh;
tmp_x*=tmp_x;
tmp_y*=tmp_y;
-
+
//ignore if it's outside of the disc
if( tmp_x+tmp_y>1.0)
continue;
-
+
//cap the pixel indices to inside the surface
int u= x+x2,
v= y+y2;
-
+
if( u < 0 ) u = 0;
if( u >= w ) u = w-1;
-
+
if( v < 0 ) v = 0;
if( v >= h ) v = h-1;
-
+
//accumulate the color, and # of pixels added in
color += tmp_surface[v][u];
total++;
}
}
-
+
//blend the color with the original color
//if(get_amount()==1.0 && get_blend_method()==Color::BLEND_STRAIGHT)
worksurface[y][x]=color/total;
}
break;
}
-
+
//if we don't qualify for disc blur just use box blur
}
{
//horizontal part
//synfig::info("Blur: Starting Box blur (surface valid %d)", (int)surface_valid(worksurface));
-
+
Surface temp_surface;
temp_surface.set_wh(w,h);
-
+
if(size[0])
{
int length = halfsizex;
length=std::max(1,length);
-
+
//synfig::info("Blur: hbox blur work -> temp %d", length);
etl::hbox_blur(worksurface.begin(),worksurface.end(),length,temp_surface.begin());
}
else temp_surface = worksurface;
//synfig::info("Blur: hbox finished");
-
+
//vertical part
//Surface temp_surface2;
//temp_surface2.set_wh(w,h);
-
+
if(size[1])
{
int length = halfsizey;
length = std::max(1,length);
-
+
//synfig::info("Blur: vbox blur temp -> work %d",length);
etl::vbox_blur(temp_surface.begin(),temp_surface.end(),length,worksurface.begin());
}
else worksurface = temp_surface;
//synfig::info("Blur: vbox finished");
-
+
//blend with the original surface
/*int x,y;
for(y=0;y<h;y++)
break;
case Blur::FASTGAUSSIAN: // F A S T G A U S S I A N ----------------------------------------------
- {
+ {
//fast gaussian is treated as a 3x3 type of thing, except expanded to work with the length
-
+
/* 1 2 1
2 4 2
1 2 1
*/
-
+
Surface temp_surface;
temp_surface.set_wh(w,h);
-
+
//Surface temp_surface2;
//temp_surface2.set_wh(w,h);
-
+
//horizontal part
if(size[0])
{
Real length=abs((float)w/(resolution[0]))*size[0]*0.5+1;
length=std::max(1.0,length);
-
+
//two box blurs produces: 1 2 1
etl::hbox_blur(worksurface.begin(),w,h,(int)(length*3/4),temp_surface.begin());
etl::hbox_blur(temp_surface.begin(),w,h,(int)(length*3/4),worksurface.begin());
}
//else temp_surface2=worksurface;
-
+
//vertical part
if(size[1])
{
Real length=abs((float)h/(resolution[1]))*size[1]*0.5+1;
length=std::max(1.0,length);
-
+
//two box blurs produces: 1 2 1 on the horizontal 1 2 1
etl::vbox_blur(worksurface.begin(),w,h,(int)(length*3/4),temp_surface.begin());
etl::vbox_blur(temp_surface.begin(),w,h,(int)(length*3/4),worksurface.begin());
}
//else temp_surface2=temp_surface2;
-
+
/*int x,y;
for(y=0;y<h;y++)
{
//horizontal part
Surface temp_surface;
temp_surface.set_wh(worksurface.get_w(),worksurface.get_h());
-
+
if(size[0])
{
int length = halfsizex;
length = std::max(1,length);
-
+
etl::hbox_blur(worksurface.begin(),worksurface.end(),length,temp_surface.begin());
}
else temp_surface = worksurface;
-
+
//vertical part
Surface temp_surface2;
temp_surface2.set_wh(worksurface.get_w(),worksurface.get_h());
-
+
if(size[1])
{
int length = halfsizey;
length = std::max(1,length);
-
+
etl::vbox_blur(worksurface.begin(),worksurface.end(),length,temp_surface2.begin());
}
else temp_surface2 = worksurface;
-
+
//blend the two together
int x,y;
Real pw = (Real)w/(resolution[0]);
Real ph = (Real)h/(resolution[1]);
-
+
Surface temp_surface;
Surface *gauss_surface;
-
+
//synfig::warning("Didn't crash yet b1");
-
+
//if(get_amount()==1.0 && get_blend_method()==Color::BLEND_STRAIGHT)
gauss_surface = &worksurface;
/*else
//synfig::warning("Didn't crash yet b2");
//int i = 0;
-
+
while(bw&&bh)
{
if(!blurcall.amount_complete(max-(bw+bh),max))return false;
GuassianBlur_2x2(*gauss_surface);
bw--,bh--;
}
-
+
//synfig::warning("Didn't crash yet bi - %d",i++);
}
while(bw)
}
// Scale up the alpha
-
+
//be sure the surface is of the correct size
//surface->set_wh(renddesc.get_w(),renddesc.get_h());
out.set_wh(w,h);
-
+
//divide out the alpha
for(y=0;y<h;y++)
{
else out[y][x]=Color::alpha();
}
}
-
+
//we are FRIGGGIN done....
blurcall.amount_complete(100,100);
-
+
return true;
}
-bool Blur::operator ()(const surface<float> &surface,
- const Vector &resolution,
+bool Blur::operator ()(const surface<float> &surface,
+ const Vector &resolution,
surface<float> &out) const
{
int w = surface.get_w(),
h = surface.get_h();
-
+
if(w == 0 || h == 0 || resolution[0] == 0 || resolution[1] == 0) return false;
-
+
const Real pw = resolution[0]/w,
ph = resolution[1]/h;
-
+
int halfsizex = (int) (abs(size[0]*.5/pw) + 1),
- halfsizey = (int) (abs(size[1]*.5/ph) + 1);
+ halfsizey = (int) (abs(size[1]*.5/ph) + 1);
int x,y;
-
+
SuperCallback blurcall(cb,0,5000,5000);
-
+
etl::surface<float> worksurface(surface);
-
+
//don't need to premultiply because we are dealing with ONLY alpha
-
+
switch(type)
{
case Blur::DISC: // D I S C ----------------------------------------------------------
- {
+ {
int bw = halfsizex;
int bh = halfsizey;
-
+
if(size[0] && size[1] && w*h>2)
{
int x2,y2;
etl::surface<float> tmp_surface(worksurface);
-
+
for(y=0;y<h;y++)
{
for(x=0;x<w;x++)
//accumulate all the pixels in an ellipse of w,h about the current pixel
float a = 0;
int total=0;
-
+
for(y2=-bh;y2<=bh;y2++)
{
for(x2=-bw;x2<=bw;x2++)
float tmp_y=(float)y2/bh;
tmp_x*=tmp_x;
tmp_y*=tmp_y;
-
+
//ignore if it's outside of the disc
if( tmp_x+tmp_y>1.0)
continue;
-
+
//cap the pixel indices to inside the surface
int u= x+x2,
v= y+y2;
-
+
if( u < 0 ) u = 0;
if( u >= w ) u = w-1;
-
+
if( v < 0 ) v = 0;
if( v >= h ) v = h-1;
-
+
//accumulate the color, and # of pixels added in
a += tmp_surface[v][u];
total++;
}
}
-
+
//blend the color with the original color
//if(get_amount()==1.0 && get_blend_method()==Color::BLEND_STRAIGHT)
worksurface[y][x]=a/total;
}
break;
}
-
+
//if we don't qualify for disc blur just use box blur
}
//horizontal part
etl::surface<float> temp_surface;
temp_surface.set_wh(w,h);
-
+
if(size[0])
{
int length = halfsizex;
length=std::max(1,length);
-
+
etl::hbox_blur(worksurface.begin(),worksurface.end(),length,temp_surface.begin());
}
else temp_surface = worksurface;
-
+
//vertical part
//etl::surface<float> temp_surface2;
//temp_surface2.set_wh(w,h);
-
+
if(size[1])
{
int length = halfsizey;
etl::vbox_blur(temp_surface.begin(),temp_surface.end(),length,worksurface.begin());
}
else worksurface = temp_surface;
-
+
//blend with the original surface
/*int x,y;
for(y=0;y<h;y++)
break;
case Blur::FASTGAUSSIAN: // F A S T G A U S S I A N ----------------------------------------------
- {
+ {
//fast gaussian is treated as a 3x3 type of thing, except expanded to work with the length
-
+
/* 1 2 1
2 4 2
1 2 1
*/
-
+
etl::surface<float> temp_surface;
temp_surface.set_wh(w,h);
-
+
//etl::surface<float> temp_surface2;
//temp_surface2.set_wh(w,h);
-
+
//horizontal part
if(size[0])
{
Real length=abs((float)w/(resolution[0]))*size[0]*0.5+1;
length=std::max(1.0,length);
-
+
//two box blurs produces: 1 2 1
etl::hbox_blur(worksurface.begin(),w,h,(int)(length*3/4),temp_surface.begin());
etl::hbox_blur(temp_surface.begin(),w,h,(int)(length*3/4),worksurface.begin());
}
//else temp_surface2=worksurface;
-
+
//vertical part
if(size[1])
{
Real length=abs((float)h/(resolution[1]))*size[1]*0.5+1;
length=std::max(1.0,length);
-
+
//two box blurs produces: 1 2 1 on the horizontal 1 2 1
etl::vbox_blur(worksurface.begin(),w,h,(int)(length*3/4),temp_surface.begin());
etl::vbox_blur(temp_surface.begin(),w,h,(int)(length*3/4),worksurface.begin());
}
//else temp_surface2=temp_surface2;
-
+
/*int x,y;
for(y=0;y<h;y++)
{
//horizontal part
etl::surface<float> temp_surface;
temp_surface.set_wh(worksurface.get_w(),worksurface.get_h());
-
+
if(size[0])
{
int length = halfsizex;
length = std::max(1,length);
-
+
etl::hbox_blur(worksurface.begin(),worksurface.end(),length,temp_surface.begin());
}
else temp_surface = worksurface;
-
+
//vertical part
etl::surface<float> temp_surface2;
temp_surface2.set_wh(worksurface.get_w(),worksurface.get_h());
-
+
if(size[1])
{
int length = halfsizey;
length = std::max(1,length);
-
+
etl::vbox_blur(worksurface.begin(),worksurface.end(),length,temp_surface2.begin());
}
else temp_surface2 = worksurface;
-
+
//blend the two together
int x,y;
Real pw = (Real)w/(resolution[0]);
Real ph = (Real)h/(resolution[1]);
-
+
//etl::surface<float> temp_surface;
etl::surface<float> *gauss_surface;
-
+
//if(get_amount()==1.0 && get_blend_method()==Color::BLEND_STRAIGHT)
gauss_surface = &worksurface;
/*else
float *SC1=new float[w+2];
float *SC2=new float[w+2];
float *SC3=new float[w+2];
-
+
memset(SC0,0,(w+2)*sizeof(float));
memset(SC0,0,(w+2)*sizeof(float));
memset(SC0,0,(w+2)*sizeof(float));
memset(SC0,0,(w+2)*sizeof(float));
//int i = 0;
-
+
while(bw&&bh)
- {
+ {
if(!blurcall.amount_complete(max-(bw+bh),max))return false;
if(bw>=4 && bh>=4)
bw--,bh--;
}
}
-
+
while(bw)
{
if(!blurcall.amount_complete(max-(bw+bh),max))return false;
bw--;
}
}
-
+
while(bh)
{
if(!blurcall.amount_complete(max-(bw+bh),max))return false;
default:
break;
}
-
+
//be sure the surface is of the correct size
//surface->set_wh(renddesc.get_w(),renddesc.get_h());
out.set_wh(w,h);
-
+
//divide out the alpha - don't need to cause we rock
out = worksurface;
-
+
//we are FRIGGGIN done....
blurcall.amount_complete(100,100);
-
+
return true;
}
projects / synfig.git / blobdiff