ref: aeb153cdd6cb37dc1e9d61b22a92430a756ddeb5
dir: /debug/plmon.c/
#include <u.h> #include <libc.h> #include <bio.h> #include <thread.h> #include <draw.h> #include <mouse.h> #include <keyboard.h> #include <geometry.h> enum { Graphoff = 40, Slotht = 10, }; enum { CMain, CBack, CTdelim, CSelect, NCOLOR, }; typedef struct Slot Slot; typedef struct Task Task; typedef struct Schedule Schedule; struct Slot { uvlong t0, t1; }; struct Task { char *name; Slot *times; ulong ntime; }; struct Schedule { Task *tasks; ulong ntask; }; Rectangle UR = {0,0,1,1}; Image *pal[NCOLOR]; RFrame graphrf; Schedule sched; int scale; Slot *curts; Channel *drawc; char *units[] = { "ns", "µs", "ms", "s" }; double mag; int Δx; void redraw(void); static Image* eallocimage(Display *d, Rectangle r, ulong chan, int repl, ulong col) { Image *i; i = allocimage(d, r, chan, repl, col); if(i == nil) sysfatal("allocimage: %r"); return i; } static void addt(char *n, Slot s) { Task *t; int i; t = nil; for(i = 0; i < sched.ntask; i++) if(strcmp(n, sched.tasks[i].name) == 0){ t = &sched.tasks[i]; break; } if(t == nil){ sched.tasks = realloc(sched.tasks, ++sched.ntask*sizeof(*sched.tasks)); t = &sched.tasks[sched.ntask-1]; memset(t, 0, sizeof *t); t->name = strdup(n); } t->times = realloc(t->times, ++t->ntime*sizeof(*t->times)); t->times[t->ntime-1] = s; } static void printsched(void) { Task *t; Slot *s; for(t = sched.tasks; t && t < sched.tasks + sched.ntask; t++) for(s = t->times; s < t->times + t->ntime; s++) print("%s\t%llud\t%llud\n", t->name, s->t0, s->t1); } static void initcolors(void) { pal[CMain] = display->black; pal[CBack] = display->white; pal[CTdelim] = eallocimage(display, UR, screen->chan, 1, 0xEEEEEEff); pal[CSelect] = eallocimage(display, Rect(0,0,2,2), screen->chan, 1, DWhite); draw(pal[CSelect], UR, display->black, nil, ZP); draw(pal[CSelect], rectaddpt(UR, Pt(1,1)), display->black, nil, ZP); } void lmb(Mousectl *mc) { Mouse m; for(;;){ m = mc->Mouse; if(readmouse(mc) < 0) break; if((mc->buttons & 7) != 1) break; graphrf.p.x += mc->xy.x - m.xy.x; if(graphrf.p.x > Graphoff) graphrf.p.x = Graphoff; redraw(); } } void mmb(Mousectl *mc) { enum { QUIT, }; static char *items[] = { [QUIT] "quit", nil, }; static Menu menu = { .item = items }; switch(menuhit(2, mc, &menu, _screen)){ case QUIT: threadexitsall(nil); } nbsend(drawc, nil); } void rmb(Mousectl *mc) { Task *t; Slot *s; Rectangle r; Point2 p; int dy; dy = (Dy(screen->r) - font->height)/sched.ntask; for(t = sched.tasks; t < sched.tasks+sched.ntask; t++){ graphrf.p.y = (t - sched.tasks)*dy+dy; for(s = t->times; s < t->times+t->ntime; s++){ p = invrframexform(Pt2(s->t0,0,1), graphrf); r.min = Pt(p.x,p.y-Slotht); p = invrframexform(Pt2(s->t1,0,1), graphrf); r.max = Pt(p.x+1,p.y); if(r.min.x < Graphoff) r.min.x = Graphoff; if(ptinrect(subpt(mc->xy, screen->r.min), r)){ curts = s; nbsend(drawc, nil); return; } } } } void zoomin(void) { Point2 op; if(scale == 1) return; op = rframexform(Pt2(Graphoff,0,1), graphrf); graphrf.bx.x = pow10(++scale); op = invrframexform(op, graphrf); graphrf.p.x -= op.x-Graphoff; mag = pow10(abs(scale)%3); nbsend(drawc, nil); } void zoomout(void) { Point2 op; if(abs(scale) == 3*(nelem(units)-1)) return; else if(scale == 1) scale = 0; op = rframexform(Pt2(Graphoff,0,1), graphrf); graphrf.bx.x = pow10(--scale); op = invrframexform(op, graphrf); graphrf.p.x -= op.x-Graphoff; mag = pow10(abs(scale)%3); nbsend(drawc, nil); } void mouse(Mousectl *mc) { if(mc->buttons & 1) lmb(mc); if(mc->buttons & 2) mmb(mc); if(mc->buttons & 4) rmb(mc); if(mc->buttons & 8) zoomin(); if(mc->buttons & 16) zoomout(); } void resized(void) { lockdisplay(display); if(getwindow(display, Refnone) < 0) sysfatal("resize failed"); unlockdisplay(display); nbsend(drawc, nil); } void key(Rune r) { switch(r){ case Kdel: case 'q': threadexitsall(nil); case Kleft: graphrf.p.x -= 10; nbsend(drawc, nil); break; case Kright: graphrf.p.x += 10; if(graphrf.p.x > Graphoff) graphrf.p.x = Graphoff; nbsend(drawc, nil); break; } } void redraw(void) { Rectangle r; Slot *s; Point2 p; char info[128]; int i, dy, yoff, xoff; lockdisplay(display); draw(screen, screen->r, pal[CBack], nil, ZP); /* time axis (horizontal) */ xoff = fmod(graphrf.p.x, Δx); for(i = xoff; i < Dx(screen->r); i += Δx){ if(i < Graphoff) continue; line(screen, addpt(screen->r.min, Pt(i,Graphoff/2)), addpt(screen->r.min, Pt(i,Graphoff)), 0, 0, 0, pal[CMain], ZP); line(screen, addpt(screen->r.min, Pt(i,Graphoff)), Pt(screen->r.min.x+i,screen->r.max.y), 0, 0, 0, pal[CTdelim], ZP); p = rframexform(Pt2(i,0,1), graphrf); snprint(info, sizeof info, "%.0f", p.x*mag*pow10(scale)); string(screen, addpt(screen->r.min, Pt(i+2,Graphoff/2-2)), pal[CMain], ZP, font, info); } // snprint(info, sizeof info, "t(%s) %.0f/px", units[abs(scale)/3], mag); snprint(info, sizeof info, "t(%s)", units[abs(scale)/3]); if(curts != nil) snprint(info+strlen(info), sizeof(info)-strlen(info), " t0 %.2f t1 %.2f Δt %.2f", curts->t0*pow10(scale-(scale%3)), curts->t1*pow10(scale-(scale%3)), (curts->t1 - curts->t0)*pow10(scale-(scale%3))); string(screen, addpt(screen->r.min, Pt(Graphoff+2,0)), pal[CMain], ZP, font, info); line(screen, addpt(screen->r.min, Pt(0, Graphoff)), addpt(screen->r.min, Pt(Dx(screen->r), Graphoff)), 0, 0, 0, pal[CMain], ZP); /* tasks axis (vertical) */ dy = (Dy(screen->r) - font->height)/sched.ntask; for(i = 0; i < sched.ntask; i++){ yoff = i*dy+dy; string(screen, addpt(screen->r.min, Pt(0,yoff)), pal[CMain], ZP, font, sched.tasks[i].name); line(screen, addpt(screen->r.min, Pt(Graphoff/2,yoff+font->height)), addpt(screen->r.min, Pt(Graphoff,yoff+font->height)), 0, 0, 0, pal[CMain], ZP); graphrf.p.y = yoff; for(s = sched.tasks[i].times; s < sched.tasks[i].times + sched.tasks[i].ntime; s++){ p = invrframexform(Pt2(s->t0,0,1), graphrf); if(p.x > Dx(screen->r)) break; r.min = Pt(p.x,p.y-Slotht); p = invrframexform(Pt2(s->t1,0,1), graphrf); if(p.x < Graphoff) continue; r.max = Pt(p.x+1,p.y); if(r.min.x < Graphoff) r.min.x = Graphoff; draw(screen, rectaddpt(r, screen->r.min), s == curts? pal[CSelect]: pal[CMain], nil, ZP); } } line(screen, addpt(screen->r.min, Pt(Graphoff, 0)), addpt(screen->r.min, Pt(Graphoff, Dy(screen->r))), 0, 0, 0, pal[CMain], ZP); flushimage(display, 1); unlockdisplay(display); } void usage(void) { fprint(2, "usage: %s\n", argv0); exits("usage"); } void threadmain(int argc, char *argv[]) { Mousectl *mc; Keyboardctl *kc; Biobuf *bin; Slot s; Rune r; char *line, *f[3]; ulong nf; ARGBEGIN{ default: usage(); }ARGEND if(argc != 0) usage(); bin = Bfdopen(0, OREAD); if(bin == nil) sysfatal("Bfdopen: %r"); while((line = Brdline(bin, '\n')) != nil){ line[Blinelen(bin)-1] = 0; nf = tokenize(line, f, 3); if(nf != 3) continue; s.t0 = strtoul(f[1], nil, 10); s.t1 = strtoul(f[2], nil, 10); if(s.t0 >= s.t1) continue; addt(f[0], s); } Bterm(bin); if(initdraw(nil, nil, "plmon") < 0) sysfatal("initdraw: %r"); if((kc = initkeyboard(nil)) == nil) sysfatal("initkeyboard: %r"); if((mc = initmouse(nil, screen)) == nil) sysfatal("initmouse: %r"); initcolors(); scale = -3; /* µs */ graphrf.p = Pt2(Graphoff,Graphoff,1); graphrf.bx = Vec2(pow10(scale),0); graphrf.by = Vec2(0,1); Δx = 100; mag = pow10(abs(scale)%3); drawc = chancreate(sizeof(void*), 1); display->locking = 1; unlockdisplay(display); nbsend(drawc, nil); enum { MOUSE, RESIZE, KEY, DRAW }; Alt a[] = { {mc->c, &mc->Mouse, CHANRCV}, {mc->resizec, nil, CHANRCV}, {kc->c, &r, CHANRCV}, {drawc, nil, CHANRCV}, {nil, nil, CHANEND}, }; for(;;) switch(alt(a)){ case MOUSE: mouse(mc); break; case RESIZE: resized(); break; case KEY: key(r); break; case DRAW: redraw(); break; } }