ref: 3bf0f4fdcf9e1a61881c20ee8162924f952ba8e0
dir: /fb.c/
#include <u.h>
#include <libc.h>
#include <thread.h>
#include <draw.h>
#include <memdraw.h>
#include <geometry.h>
#include "libobj/obj.h"
#include "graphics.h"
#include "internal.h"
/*
* scale[234]x filters
*
* see https://www.scale2x.it/algorithm
*/
static void
scale2x_filter(ulong *dst, Framebuf *fb, Point sp)
{
ulong B, D, E, F, H;
E = getpixel(fb, sp);
B = sp.y == fb->r.min.y? E: getpixel(fb, addpt(sp, Pt( 0,-1)));
D = sp.x == fb->r.min.x? E: getpixel(fb, addpt(sp, Pt(-1, 0)));
F = sp.x == fb->r.max.x? E: getpixel(fb, addpt(sp, Pt( 1, 0)));
H = sp.y == fb->r.max.y? E: getpixel(fb, addpt(sp, Pt( 0, 1)));
if(B != H && D != F){
dst[0] = D == B? D: E;
dst[1] = B == F? F: E;
dst[2] = D == H? D: E;
dst[3] = H == F? F: E;
}else
memsetl(dst, E, 4);
}
static void
scale3x_filter(ulong *dst, Framebuf *fb, Point sp)
{
ulong A, B, C, D, E, F, G, H, I;
E = getpixel(fb, sp);
B = sp.y == fb->r.min.y? E: getpixel(fb, addpt(sp, Pt( 0,-1)));
D = sp.x == fb->r.min.x? E: getpixel(fb, addpt(sp, Pt(-1, 0)));
F = sp.x == fb->r.max.x? E: getpixel(fb, addpt(sp, Pt( 1, 0)));
H = sp.y == fb->r.max.y? E: getpixel(fb, addpt(sp, Pt( 0, 1)));
A = sp.y == fb->r.min.y && sp.x == fb->r.min.x? E:
sp.y == fb->r.min.y? D: sp.x == fb->r.min.x? B:
getpixel(fb, addpt(sp, Pt(-1,-1)));
C = sp.y == fb->r.min.y && sp.x == fb->r.max.x? E:
sp.y == fb->r.min.y? F: sp.x == fb->r.max.x? B:
getpixel(fb, addpt(sp, Pt( 1,-1)));
G = sp.y == fb->r.max.y && sp.x == fb->r.min.x? E:
sp.y == fb->r.max.y? D: sp.x == fb->r.min.x? H:
getpixel(fb, addpt(sp, Pt(-1, 1)));
I = sp.y == fb->r.max.y && sp.x == fb->r.max.x? E:
sp.y == fb->r.max.y? F: sp.x == fb->r.max.x? H:
getpixel(fb, addpt(sp, Pt( 1, 1)));
if(B != H && D != F){
dst[0] = D == B? D: E;
dst[1] = (D == B && E != C) || (B == F && E != A)? B: E;
dst[2] = B == F? F: E;
dst[3] = (D == B && E != G) || (D == H && E != A)? D: E;
dst[4] = E;
dst[5] = (B == F && E != I) || (H == F && E != C)? F: E;
dst[6] = D == H? D: E;
dst[7] = (D == H && E != I) || (H == F && E != G)? H: E;
dst[8] = H == F? F: E;
}else
memsetl(dst, E, 9);
}
//static void
//scale4x_filter(ulong *dst, Framebuf *fb, Point sp)
//{
//
//}
//static void
//framebufctl_draw⁻¹(Framebufctl *ctl, Image *dst)
//{
// Framebuf *fb;
// Rectangle lr;
// Point sp, dp;
//
// qlock(ctl);
// fb = ctl->getfb(ctl);
// lr = Rect(0,0,Dx(fb->r),1);
// sp.x = dp.x = 0;
// for(sp.y = fb->r.max.y, dp.y = dst->r.min.y; sp.y >= fb->r.min.y; sp.y--, dp.y++)
// loadimage(dst, rectaddpt(lr, dp), (uchar*)(fb->cb + sp.y*Dx(lr)), Dx(lr)*4);
// qunlock(ctl);
//}
static void
framebufctl_draw(Framebufctl *ctl, Image *dst)
{
Framebuf *fb;
qlock(ctl);
fb = ctl->getfb(ctl);
loadimage(dst, rectaddpt(fb->r, dst->r.min), (uchar*)fb->cb, Dx(fb->r)*Dy(fb->r)*4);
qunlock(ctl);
}
static void
framebufctl_upscaledraw(Framebufctl *ctl, Image *dst, Point scale)
{
void (*filter)(ulong*, Framebuf*, Point);
Framebuf *fb;
Rectangle blkr;
Point sp, dp;
ulong *blk;
filter = nil;
blk = emalloc(scale.x*scale.y*4);
blkr = Rect(0,0,scale.x,scale.y);
qlock(ctl);
fb = ctl->getfb(ctl);
switch(ctl->upfilter){
case UFScale2x:
if(scale.x == scale.y && scale.y == 2)
filter = scale2x_filter;
break;
case UFScale3x:
if(scale.x == scale.y && scale.y == 3)
filter = scale3x_filter;
break;
}
for(sp.y = fb->r.min.y, dp.y = dst->r.min.y; sp.y < fb->r.max.y; sp.y++, dp.y += scale.y)
for(sp.x = fb->r.min.x, dp.x = dst->r.min.x; sp.x < fb->r.max.x; sp.x++, dp.x += scale.x){
if(filter != nil)
filter(blk, fb, sp);
else
memsetl(blk, getpixel(fb, sp), scale.x*scale.y);
loadimage(dst, rectaddpt(blkr, dp), (uchar*)blk, scale.x*scale.y*4);
}
qunlock(ctl);
free(blk);
}
static void
framebufctl_memdraw(Framebufctl *ctl, Memimage *dst)
{
Framebuf *fb;
qlock(ctl);
fb = ctl->getfb(ctl);
loadmemimage(dst, rectaddpt(fb->r, dst->r.min), (uchar*)fb->cb, Dx(fb->r)*Dy(fb->r)*4);
qunlock(ctl);
}
static void
framebufctl_upscalememdraw(Framebufctl *ctl, Memimage *dst, Point scale)
{
void (*filter)(ulong*, Framebuf*, Point);
Framebuf *fb;
Rectangle blkr;
Point sp, dp;
ulong *blk;
filter = nil;
blk = emalloc(scale.x*scale.y*4);
blkr = Rect(0,0,scale.x,scale.y);
qlock(ctl);
fb = ctl->getfb(ctl);
switch(ctl->upfilter){
case UFScale2x:
if(scale.x == scale.y && scale.y == 2)
filter = scale2x_filter;
break;
case UFScale3x:
if(scale.x == scale.y && scale.y == 3)
filter = scale3x_filter;
break;
}
for(sp.y = fb->r.min.y, dp.y = dst->r.min.y; sp.y < fb->r.max.y; sp.y++, dp.y += scale.y)
for(sp.x = fb->r.min.x, dp.x = dst->r.min.x; sp.x < fb->r.max.x; sp.x++, dp.x += scale.x){
if(filter != nil)
filter(blk, fb, sp);
else
memsetl(blk, getpixel(fb, sp), scale.x*scale.y);
loadmemimage(dst, rectaddpt(blkr, dp), (uchar*)blk, scale.x*scale.y*4);
}
qunlock(ctl);
free(blk);
}
static void
framebufctl_drawnormals(Framebufctl *ctl, Image *dst)
{
Framebuf *fb;
qlock(ctl);
fb = ctl->getfb(ctl);
loadimage(dst, rectaddpt(fb->r, dst->r.min), (uchar*)fb->nb, Dx(fb->r)*Dy(fb->r)*4);
qunlock(ctl);
}
static void
framebufctl_swap(Framebufctl *ctl)
{
qlock(ctl);
ctl->idx ^= 1;
qunlock(ctl);
}
static void
framebufctl_reset(Framebufctl *ctl)
{
Framebuf *fb;
/* address the back buffer—resetting the front buffer is VERBOTEN */
fb = ctl->getbb(ctl);
memset(fb->nb, 0, Dx(fb->r)*Dy(fb->r)*4);
memsetd(fb->zb, Inf(-1), Dx(fb->r)*Dy(fb->r));
memset(fb->cb, 0, Dx(fb->r)*Dy(fb->r)*4);
}
static Framebuf *
framebufctl_getfb(Framebufctl *ctl)
{
return ctl->fb[ctl->idx]; /* front buffer */
}
static Framebuf *
framebufctl_getbb(Framebufctl *ctl)
{
return ctl->fb[ctl->idx^1]; /* back buffer */
}
Framebuf *
mkfb(Rectangle r)
{
Framebuf *fb;
fb = emalloc(sizeof *fb);
memset(fb, 0, sizeof *fb);
fb->cb = emalloc(Dx(r)*Dy(r)*4);
fb->zb = emalloc(Dx(r)*Dy(r)*sizeof(*fb->zb));
memsetd(fb->zb, Inf(-1), Dx(r)*Dy(r));
fb->nb = emalloc(Dx(r)*Dy(r)*4);
fb->r = r;
return fb;
}
void
rmfb(Framebuf *fb)
{
free(fb->nb);
free(fb->zb);
free(fb->cb);
free(fb);
}
Framebufctl *
mkfbctl(Rectangle r)
{
Framebufctl *fc;
fc = emalloc(sizeof *fc);
memset(fc, 0, sizeof *fc);
fc->fb[0] = mkfb(r);
fc->fb[1] = mkfb(r);
fc->draw = framebufctl_draw;
fc->upscaledraw = framebufctl_upscaledraw;
fc->memdraw = framebufctl_memdraw;
fc->upscalememdraw = framebufctl_upscalememdraw;
fc->drawnormals = framebufctl_drawnormals;
fc->swap = framebufctl_swap;
fc->reset = framebufctl_reset;
fc->getfb = framebufctl_getfb;
fc->getbb = framebufctl_getbb;
return fc;
}
void
rmfbctl(Framebufctl *fc)
{
rmfb(fc->fb[1]);
rmfb(fc->fb[0]);
free(fc);
}