ref: 05e63a30ce73bbb09b60cd7943e34145351f9055
dir: /med.c/
#include <u.h>
#include <libc.h>
#include <thread.h>
#include <draw.h>
#include <memdraw.h>
#include <mouse.h>
#include <keyboard.h>
#include <geometry.h>
#include "libobj/obj.h"
#include "libgraphics/graphics.h"
#include "fns.h"
enum {
K↑,
K↓,
K←,
K→,
Krise,
Kfall,
KR↑,
KR↓,
KR←,
KR→,
KR↺,
KR↻,
Kzoomin,
Kzoomout,
Khud,
Kfrustum,
Ke
};
enum {
Sfov,
Scampos,
Scambx, Scamby, Scambz,
Sfps,
Sframes,
Se
};
typedef struct Camcfg Camcfg;
struct Camcfg
{
Point3 p, lookat, up;
double fov, clipn, clipf;
int ptype;
};
Rune keys[Ke] = {
[K↑] = Kup,
[K↓] = Kdown,
[K←] = Kleft,
[K→] = Kright,
[Krise] = Kpgup,
[Kfall] = Kpgdown,
[KR↑] = 'w',
[KR↓] = 's',
[KR←] = 'a',
[KR→] = 'd',
[KR↺] = 'q',
[KR↻] = 'e',
[Kzoomin] = 'z',
[Kzoomout] = 'x',
[Khud] = 'h',
[Kfrustum] = ' ',
};
char stats[Se][256];
Image *screenb;
Mousectl *mctl;
Keyboardctl *kctl;
Channel *drawc;
int kdown;
Scene *scene;
Entity *subject;
Model *model;
Shadertab *shader;
QLock scenelk;
Mouse om;
Quaternion orient = {1,0,0,0};
Camera *cam;
Camcfg camcfg = {
0,2,4,1,
0,0,0,1,
0,1,0,0,
40*DEG, 0.01, 10, PERSPECTIVE
};
Point3 center = {0,0,0,1};
LightSource light; /* global point light */
static int doprof;
static int showhud;
Color (*tsampler)(Texture*,Point2);
static int
min(int a, int b)
{
return a < b? a: b;
}
static int
max(int a, int b)
{
return a > b? a: b;
}
static Point3
Vecquat(Quaternion q)
{
return Vec3(q.i, q.j, q.k);
}
static Point3
Ptquat(Quaternion q, double w)
{
return Pt3(q.i, q.j, q.k, w);
}
void
materializefrustum(void)
{
Primitive l;
Point3 p[4];
int i;
p[0] = Pt3(0,0,1,1);
p[1] = Pt3(Dx(cam->view->r),0,1,1);
p[2] = Pt3(Dx(cam->view->r),Dy(cam->view->r),1,1);
p[3] = Pt3(0,Dy(cam->view->r),1,1);
memset(&l, 0, sizeof l);
for(i = 0; i < nelem(p); i++){
/* front frame */
l.type = PLine;
l.v[0].p = world2model(subject, viewport2world(cam, p[i]));
l.v[1].p = world2model(subject, viewport2world(cam, p[(i+1)%nelem(p)]));
qlock(&scenelk);
model->prims = erealloc(model->prims, ++model->nprims*sizeof(*model->prims));
model->prims[model->nprims-1] = l;
qunlock(&scenelk);
/* middle frame */
l.v[0].p = world2model(subject, viewport2world(cam, subpt3(p[i], Vec3(0,0,0.5))));
l.v[1].p = world2model(subject, viewport2world(cam, subpt3(p[(i+1)%nelem(p)], Vec3(0,0,0.5))));
qlock(&scenelk);
model->prims = erealloc(model->prims, ++model->nprims*sizeof(*model->prims));
model->prims[model->nprims-1] = l;
qunlock(&scenelk);
/* back frame */
l.v[0].p = world2model(subject, viewport2world(cam, subpt3(p[i], Vec3(0,0,1))));
l.v[1].p = world2model(subject, viewport2world(cam, subpt3(p[(i+1)%nelem(p)], Vec3(0,0,1))));
qlock(&scenelk);
model->prims = erealloc(model->prims, ++model->nprims*sizeof(*model->prims));
model->prims[model->nprims-1] = l;
qunlock(&scenelk);
/* struts */
l.v[1].p = world2model(subject, viewport2world(cam, p[i]));
qlock(&scenelk);
model->prims = erealloc(model->prims, ++model->nprims*sizeof(*model->prims));
model->prims[model->nprims-1] = l;
qunlock(&scenelk);
}
}
void
addcube(void)
{
static Point3 axis[3] = {{0,1,0,0}, {1,0,0,0}, {0,0,1,0}};
Primitive t[2];
Point3 p, v1, v2;
int i, j, k;
memset(t, 0, sizeof t);
t[0].type = t[1].type = PTriangle;
/* build the first face/quad, facing the positive z axis */
p = Vec3(-0.5,-0.5,0.5);
v1 = Vec3(1,0,0);
v2 = Vec3(0,1,0);
t[0].v[0].p = addpt3(center, p);
t[0].v[0].n = p;
t[0].v[1].p = addpt3(center, addpt3(p, v1));
t[0].v[1].n = addpt3(p, v1);
t[0].v[2].p = addpt3(center, addpt3(p, addpt3(v1, v2)));
t[0].v[2].n = addpt3(p, addpt3(v1, v2));
t[1].v[0] = t[0].v[0];
t[1].v[1] = t[0].v[2];
t[1].v[2].p = addpt3(center, addpt3(p, v2));
t[1].v[2].n = addpt3(p, v2);
/* make a cube by rotating the reference face */
for(i = 0; i < 6; i++){
if(i > 0)
for(j = 0; j < 2; j++)
for(k = 0; k < 3; k++){
t[j].v[k].p = qrotate(t[j].v[k].p, axis[i%3], PI/2);
t[j].v[k].n = qrotate(t[j].v[k].n, axis[i%3], PI/2);
}
qlock(&scenelk);
model->prims = erealloc(model->prims, (model->nprims += 2)*sizeof(*model->prims));
model->prims[model->nprims-2] = t[0];
model->prims[model->nprims-1] = t[1];
qunlock(&scenelk);
}
}
static void
addbasis(void)
{
Entity *e;
Model *m;
Primitive prims[3];
m = newmodel();
e = newentity("basis", m);
e->RFrame3 = subject->RFrame3;
memset(prims, 0, sizeof prims);
prims[0].type = prims[1].type = prims[2].type = PLine;
prims[0].v[0].p = prims[1].v[0].p = prims[2].v[0].p = center;
prims[0].v[0].c = prims[1].v[0].c = prims[2].v[0].c = Pt3(0,0,0,1);
prims[0].v[1].p = addpt3(center, e->bx);
prims[0].v[1].c = Pt3(1,0,0,1);
prims[1].v[1].p = addpt3(center, e->by);
prims[1].v[1].c = Pt3(0,1,0,1);
prims[2].v[1].p = addpt3(center, e->bz);
prims[2].v[1].c = Pt3(0,0,1,1);
m->prims = erealloc(m->prims, (m->nprims += 3)*sizeof(*m->prims));
memmove(m->prims, prims, sizeof prims);
scene->addent(scene, e);
}
Point3
gouraudvshader(VSparams *sp)
{
static double Ka = 0.1; /* ambient factor */
static double Ks = 0.5; /* specular factor */
double Kd; /* diffuse factor */
double spec;
Point3 pos, lightdir, lookdir;
Material *m;
Color ambient, diffuse, specular, lightc;
sp->v->n = model2world(sp->su->entity, sp->v->n);
sp->v->p = model2world(sp->su->entity, sp->v->p);
pos = sp->v->p;
m = sp->v->mtl;
lightdir = normvec3(subpt3(light.p, pos));
lightc = getlightcolor(&light, lightdir);
ambient = mulpt3(lightc, Ka);
if(m != nil)
ambient = modulapt3(ambient, m->ambient);
Kd = fmax(0, dotvec3(sp->v->n, lightdir));
diffuse = mulpt3(lightc, Kd);
if(m != nil)
diffuse = modulapt3(diffuse, m->diffuse);
lookdir = normvec3(subpt3(sp->su->camera->p, pos));
lightdir = qrotate(lightdir, sp->v->n, PI);
spec = pow(fmax(0, dotvec3(lookdir, lightdir)), m? m->shininess: 1);
specular = mulpt3(lightc, spec*Ks);
if(m != nil)
specular = modulapt3(specular, m->specular);
sp->v->c = addpt3(ambient, addpt3(diffuse, specular));
return world2clip(sp->su->camera, pos);
}
Color
gouraudshader(FSparams *sp)
{
Color tc, c;
if(sp->v.mtl != nil && sp->v.mtl->diffusemap != nil && sp->v.uv.w != 0)
tc = sampletexture(sp->v.mtl->diffusemap, sp->v.uv, tsampler);
else if(sp->su->entity->mdl->tex != nil && sp->v.uv.w != 0)
tc = sampletexture(sp->su->entity->mdl->tex, sp->v.uv, tsampler);
else
tc = Pt3(1,1,1,1);
c = modulapt3(sp->v.c, tc);
c.a = 1;
return c;
}
Point3
phongvshader(VSparams *sp)
{
Point3 pos;
Color a, d, s;
double ss;
sp->v->n = model2world(sp->su->entity, sp->v->n);
sp->v->p = model2world(sp->su->entity, sp->v->p);
pos = sp->v->p;
addvattr(sp->v, "pos", VAPoint, &pos);
if(sp->v->mtl != nil){
a = sp->v->mtl->ambient;
d = sp->v->mtl->diffuse;
s = sp->v->mtl->specular;
ss = sp->v->mtl->shininess;
addvattr(sp->v, "ambient", VAPoint, &a);
addvattr(sp->v, "diffuse", VAPoint, &d);
addvattr(sp->v, "specular", VAPoint, &s);
addvattr(sp->v, "shininess", VANumber, &ss);
}
return world2clip(sp->su->camera, pos);
}
Color
phongshader(FSparams *sp)
{
static double Ka = 0.1; /* ambient factor */
static double Ks = 0.5; /* specular factor */
double Kd; /* diffuse factor */
double spec;
Color ambient, diffuse, specular, tc, c, lightc;
Point3 pos, n, lightdir, lookdir;
Material m;
RFrame3 TBN;
Vertexattr *va;
va = getvattr(&sp->v, "pos");
pos = va->p;
va = getvattr(&sp->v, "ambient");
m.ambient = va != nil? va->p: Pt3(1,1,1,1);
va = getvattr(&sp->v, "diffuse");
m.diffuse = va != nil? va->p: Pt3(1,1,1,1);
va = getvattr(&sp->v, "specular");
m.specular = va != nil? va->p: Pt3(1,1,1,1);
va = getvattr(&sp->v, "shininess");
m.shininess = va != nil? va->n: 1;
lightdir = normvec3(subpt3(light.p, pos));
lightc = getlightcolor(&light, lightdir);
ambient = mulpt3(lightc, Ka);
ambient = modulapt3(ambient, m.ambient);
/* normal mapping */
va = getvattr(&sp->v, "tangent");
if(va == nil)
n = sp->v.n;
else{
/* TODO implement this on the VS instead and apply Gram-Schmidt here */
n = sampletexture(sp->v.mtl->normalmap, sp->v.uv, neartexsampler);
n = normvec3(subpt3(mulpt3(n, 2), Vec3(1,1,1)));
TBN.p = Pt3(0,0,0,1);
TBN.bx = va->p; /* T */
TBN.bz = sp->v.n; /* N */
TBN.by = crossvec3(TBN.bz, TBN.bx); /* B */
n = normvec3(invrframexform3(n, TBN));
sp->v.n = n;
}
Kd = fmax(0, dotvec3(n, lightdir));
diffuse = mulpt3(lightc, Kd);
diffuse = modulapt3(diffuse, m.diffuse);
lookdir = normvec3(subpt3(sp->su->camera->p, pos));
lightdir = qrotate(lightdir, n, PI);
spec = pow(fmax(0, dotvec3(lookdir, lightdir)), m.shininess);
specular = mulpt3(lightc, spec*Ks);
specular = modulapt3(specular, m.specular);
if(sp->v.mtl != nil && sp->v.mtl->diffusemap != nil && sp->v.uv.w != 0)
tc = sampletexture(sp->v.mtl->diffusemap, sp->v.uv, tsampler);
else if(sp->su->entity->mdl->tex != nil && sp->v.uv.w != 0)
tc = sampletexture(sp->su->entity->mdl->tex, sp->v.uv, tsampler);
else
tc = Pt3(1,1,1,1);
c = addpt3(ambient, addpt3(diffuse, specular));
c = modulapt3(c, tc);
c.a = 1;
return c;
}
Point3
identvshader(VSparams *sp)
{
if(sp->v->mtl != nil)
sp->v->c = sp->v->mtl->diffuse;
return world2clip(sp->su->camera, model2world(sp->su->entity, sp->v->p));
}
Color
identshader(FSparams *sp)
{
Color tc, c;
if(sp->v.mtl != nil && sp->v.mtl->diffusemap != nil && sp->v.uv.w != 0)
tc = sampletexture(sp->v.mtl->diffusemap, sp->v.uv, tsampler);
else if(sp->su->entity->mdl->tex != nil && sp->v.uv.w != 0)
tc = sampletexture(sp->su->entity->mdl->tex, sp->v.uv, tsampler);
else
tc = Pt3(1,1,1,1);
c = modulapt3(sp->v.c, tc);
c.a = 1;
return c;
}
Shadertab shadertab[] = {
{ "ident", identvshader, identshader },
{ "gouraud", gouraudvshader, gouraudshader },
{ "phong", phongvshader, phongshader },
};
Shadertab *
getshader(char *name)
{
int i;
for(i = 0; i < nelem(shadertab); i++)
if(strcmp(shadertab[i].name, name) == 0)
return &shadertab[i];
return nil;
}
void
zoomin(void)
{
cam->fov = fclamp(cam->fov - 1*DEG, 1*DEG, 180*DEG);
reloadcamera(cam);
}
void
zoomout(void)
{
cam->fov = fclamp(cam->fov + 1*DEG, 1*DEG, 180*DEG);
reloadcamera(cam);
}
void
drawstats(void)
{
int i;
snprint(stats[Sfov], sizeof(stats[Sfov]), "FOV %g°", cam->fov/DEG);
snprint(stats[Scampos], sizeof(stats[Scampos]), "%V", cam->p);
snprint(stats[Scambx], sizeof(stats[Scambx]), "bx %V", cam->bx);
snprint(stats[Scamby], sizeof(stats[Scamby]), "by %V", cam->by);
snprint(stats[Scambz], sizeof(stats[Scambz]), "bz %V", cam->bz);
snprint(stats[Sfps], sizeof(stats[Sfps]), "FPS %.0f/%.0f/%.0f/%.0f",
!cam->stats.max? 0: 1e9/cam->stats.max,
!cam->stats.avg? 0: 1e9/cam->stats.avg,
!cam->stats.min? 0: 1e9/cam->stats.min,
!cam->stats.v? 0: 1e9/cam->stats.v);
snprint(stats[Sframes], sizeof(stats[Sframes]), "frame %llud", cam->stats.nframes);
for(i = 0; i < Se; i++)
stringbg(screen, addpt(screen->r.min, Pt(10,10 + i*font->height)), display->black, ZP, font, stats[i], display->white, ZP);
}
void
redraw(void)
{
lockdisplay(display);
cam->view->draw(cam->view, screenb);
draw(screen, screen->r, screenb, nil, ZP);
if(showhud)
drawstats();
flushimage(display, 1);
unlockdisplay(display);
}
void
renderproc(void *)
{
uvlong t0, Δt;
threadsetname("renderproc");
t0 = nsec();
for(;;){
qlock(&scenelk);
shootcamera(cam, shader);
qunlock(&scenelk);
if(doprof)
fprint(2, "R %llud %llud\nE %llud %llud\nT %llud %llud\nr %llud %llud\n\n",
cam->times.R[cam->times.cur-1].t0, cam->times.R[cam->times.cur-1].t1,
cam->times.E[cam->times.cur-1].t0, cam->times.E[cam->times.cur-1].t1,
cam->times.Tn[cam->times.cur-1].t0, cam->times.Tn[cam->times.cur-1].t1,
cam->times.Rn[cam->times.cur-1].t0, cam->times.Rn[cam->times.cur-1].t1);
Δt = nsec() - t0;
if(Δt > HZ2MS(60)*1000000ULL){
nbsend(drawc, nil);
t0 += Δt;
}
}
}
void
drawproc(void *)
{
threadsetname("drawproc");
for(;;){
recv(drawc, nil);
redraw();
}
}
void
lmb(void)
{
Quaternion Δorient;
Entity *e;
if((om.buttons^mctl->buttons) == 0){
Δorient = orient;
qball(screen->r, om.xy, mctl->xy, &orient, nil);
Δorient = mulq(orient, invq(Δorient));
for(e = scene->ents.next; e != &scene->ents; e = e->next){
e->bx = vcs2world(cam, Vecquat(mulq(mulq(Δorient, Quatvec(0, world2vcs(cam, e->bx))), invq(Δorient))));
e->by = vcs2world(cam, Vecquat(mulq(mulq(Δorient, Quatvec(0, world2vcs(cam, e->by))), invq(Δorient))));
e->bz = vcs2world(cam, Vecquat(mulq(mulq(Δorient, Quatvec(0, world2vcs(cam, e->bz))), invq(Δorient))));
}
}
}
void
mmb(void)
{
enum {
TSNEAREST,
TSBILINEAR,
SP,
QUIT,
};
static char *items[] = {
[TSNEAREST] "use nearest sampler",
[TSBILINEAR] "use bilinear sampler",
[SP] "",
[QUIT] "quit",
nil,
};
static Menu menu = { .item = items };
lockdisplay(display);
switch(menuhit(2, mctl, &menu, _screen)){
case TSNEAREST:
tsampler = neartexsampler;
break;
case TSBILINEAR:
tsampler = bilitexsampler;
break;
case QUIT:
threadexitsall(nil);
}
unlockdisplay(display);
nbsend(drawc, nil);
}
static char *
genrmbmenuitem(int idx)
{
static char *items[] = {
"",
"add cube",
nil
};
if(idx < nelem(shadertab))
return shadertab[idx].name;
idx -= nelem(shadertab);
return items[idx];
}
void
rmb(void)
{
enum {
SP,
ADDCUBE,
};
static Menu menu = { .gen = genrmbmenuitem };
int idx;
lockdisplay(display);
idx = menuhit(3, mctl, &menu, _screen);
if(idx < 0)
goto nohit;
if(idx < nelem(shadertab)){
shader = &shadertab[idx];
memset(&cam->stats, 0, sizeof(cam->stats));
}
idx -= nelem(shadertab);
switch(idx){
case ADDCUBE:
addcube();
break;
}
nohit:
unlockdisplay(display);
nbsend(drawc, nil);
}
void
mouse(void)
{
if((mctl->buttons & 1) != 0)
lmb();
if((mctl->buttons & 2) != 0)
mmb();
if((mctl->buttons & 4) != 0)
rmb();
if((mctl->buttons & 8) != 0)
zoomin();
if((mctl->buttons & 16) != 0)
zoomout();
om = mctl->Mouse;
}
void
kbdproc(void *)
{
Rune r, *a;
char buf[128], *s;
int fd, n;
threadsetname("kbdproc");
if((fd = open("/dev/kbd", OREAD)) < 0)
sysfatal("kbdproc: %r");
memset(buf, 0, sizeof buf);
for(;;){
if(buf[0] != 0){
n = strlen(buf)+1;
memmove(buf, buf+n, sizeof(buf)-n);
}
if(buf[0] == 0){
if((n = read(fd, buf, sizeof(buf)-1)) <= 0)
break;
buf[n-1] = 0;
buf[n] = 0;
}
if(buf[0] == 'c'){
chartorune(&r, buf+1);
if(r == Kdel){
close(fd);
threadexitsall(nil);
}else
nbsend(kctl->c, &r);
}
if(buf[0] != 'k' && buf[0] != 'K')
continue;
s = buf+1;
kdown = 0;
while(*s){
s += chartorune(&r, s);
for(a = keys; a < keys+Ke; a++)
if(r == *a){
kdown |= 1 << a-keys;
break;
}
}
}
}
void
keyproc(void *c)
{
threadsetname("keyproc");
for(;;){
nbsend(c, nil);
sleep(HZ2MS(100)); /* key poll rate */
}
}
void
handlekeys(void)
{
static int okdown;
if(kdown & 1<<K↑)
movecamera(cam, mulpt3(cam->bz, -0.1));
if(kdown & 1<<K↓)
movecamera(cam, mulpt3(cam->bz, 0.1));
if(kdown & 1<<K←)
movecamera(cam, mulpt3(cam->bx, -0.1));
if(kdown & 1<<K→)
movecamera(cam, mulpt3(cam->bx, 0.1));
if(kdown & 1<<Krise)
movecamera(cam, mulpt3(cam->by, 0.1));
if(kdown & 1<<Kfall)
movecamera(cam, mulpt3(cam->by, -0.1));
if(kdown & 1<<KR↑)
rotatecamera(cam, cam->bx, 1*DEG);
if(kdown & 1<<KR↓)
rotatecamera(cam, cam->bx, -1*DEG);
if(kdown & 1<<KR←)
rotatecamera(cam, cam->by, 1*DEG);
if(kdown & 1<<KR→)
rotatecamera(cam, cam->by, -1*DEG);
if(kdown & 1<<KR↺)
rotatecamera(cam, cam->bz, 1*DEG);
if(kdown & 1<<KR↻)
rotatecamera(cam, cam->bz, -1*DEG);
if(kdown & 1<<Kzoomin)
zoomin();
if(kdown & 1<<Kzoomout)
zoomout();
if((okdown & 1<<Khud) == 0 && (kdown & 1<<Khud) != 0)
showhud ^= 1;
if((okdown & 1<<Kfrustum) == 0 && (kdown & 1<<Kfrustum) != 0)
materializefrustum();
okdown = kdown;
}
void
resize(void)
{
lockdisplay(display);
if(getwindow(display, Refnone) < 0)
fprint(2, "can't reattach to window\n");
unlockdisplay(display);
nbsend(drawc, nil);
}
static void
confproc(void)
{
char buf[64];
int fd;
snprint(buf, sizeof buf, "/proc/%d/ctl", getpid());
fd = open(buf, OWRITE);
if(fd < 0)
sysfatal("open: %r");
if(doprof)
fprint(fd, "profile\n");
close(fd);
}
void
usage(void)
{
fprint(2, "usage: %s\n", argv0);
exits("usage");
}
void
threadmain(int argc, char *argv[])
{
Renderer *rctl;
Channel *keyc;
GEOMfmtinstall();
ARGBEGIN{
case 'p': doprof++; break;
default: usage();
}ARGEND;
if(argc != 0)
usage();
confproc();
if((shader = getshader("gouraud")) == nil)
sysfatal("couldn't find main shader");
scene = newscene(nil);
model = newmodel();
subject = newentity("main", model);
scene->addent(scene, subject);
addbasis();
if(memimageinit() != 0)
sysfatal("memimageinit: %r");
if((rctl = initgraphics()) == nil)
sysfatal("initgraphics: %r");
if(initdraw(nil, nil, "med") < 0)
sysfatal("initdraw: %r");
if((mctl = initmouse(nil, screen)) == nil)
sysfatal("initmouse: %r");
screenb = eallocimage(display, rectsubpt(screen->r, screen->r.min), XRGB32, 0, DNofill);
cam = Cam(screenb->r, rctl, camcfg.ptype, camcfg.fov, camcfg.clipn, camcfg.clipf);
placecamera(cam, scene, camcfg.p, camcfg.lookat, camcfg.up);
light.p = Pt3(0,100,100,1);
light.c = Pt3(1,1,1,1);
light.type = LIGHT_POINT;
tsampler = neartexsampler;
kctl = emalloc(sizeof *kctl);
kctl->c = chancreate(sizeof(Rune), 16);
keyc = chancreate(sizeof(void*), 1);
drawc = chancreate(sizeof(void*), 1);
display->locking = 1;
unlockdisplay(display);
proccreate(kbdproc, nil, mainstacksize);
proccreate(keyproc, keyc, mainstacksize);
proccreate(renderproc, nil, mainstacksize);
proccreate(drawproc, nil, mainstacksize);
for(;;){
enum {MOUSE, RESIZE, KEY};
Alt a[] = {
{mctl->c, &mctl->Mouse, CHANRCV},
{mctl->resizec, nil, CHANRCV},
{keyc, nil, CHANRCV},
{nil, nil, CHANEND}
};
switch(alt(a)){
case MOUSE: mouse(); break;
case RESIZE: resize(); break;
case KEY: handlekeys(); break;
}
}
}