src/hd/rhd_x11.c

#ifndef lint
static const char       RCSid[] = "$Id: rhd_x11.c,v 3.34 2003/07/21 22:30:18 schorsch Exp $";
#endif
/*
 * X11 driver for holodeck display.
 * Based on rview driver.
 */

#include "standard.h"
#include  <X11/Xlib.h>
#include  <X11/cursorfont.h>
#include  <X11/Xutil.h>
#include  <time.h>
#include "rhd_qtree.h"
#include  "x11icon.h"

#ifndef RAYQLEN
#define RAYQLEN         50000           /* max. rays to queue before flush */
#endif

#ifndef FEQ
#define FEQ(a,b)        ((a)-(b) <= FTINY && (a)-(b) >= -FTINY)
#endif

#define GAMMA           2.2             /* default gamma correction */

#define FRAMESTATE(s)   (((s)&(ShiftMask|ControlMask))==(ShiftMask|ControlMask))

#define MOVPCT          7               /* percent distance to move /frame */
#define MOVDIR(b)       ((b)==Button1 ? 1 : (b)==Button2 ? 0 : -1)
#define MOVDEG          (-5)            /* degrees to orbit CW/down /frame */
#define MOVORB(s)       ((s)&ShiftMask ? 1 : (s)&ControlMask ? -1 : 0)

#define MINWIDTH        480             /* minimum graphics window width */
#define MINHEIGHT       400             /* minimum graphics window height */

#define VIEWDIST        356             /* assumed viewing distance (mm) */

#define BORWIDTH        5               /* border width */

#define  ourscreen      DefaultScreen(ourdisplay)
#define  ourroot        RootWindow(ourdisplay,ourscreen)
#define  ourmask        (StructureNotifyMask|ExposureMask|KeyPressMask|\
                        ButtonPressMask|ButtonReleaseMask)

#define  levptr(etype)  ((etype *)&currentevent)

struct driver   odev;                   /* global device driver structure */

char odev_args[64];                     /* command arguments */

static XEvent  currentevent;            /* current event */

static int  ncolors = 0;                /* color table size */
static int  mapped = 0;                 /* window is mapped? */
static unsigned long  *pixval = NULL;   /* allocated pixels */
static unsigned long  ourblack=0, ourwhite=1;

static Display  *ourdisplay = NULL;     /* our display */
static XVisualInfo  ourvinfo;           /* our visual information */
static Window  gwind = 0;               /* our graphics window */
static GC  ourgc = 0;                   /* our graphics context for drawing */
static Colormap ourmap = 0;             /* our color map */

static double   pwidth, pheight;        /* pixel dimensions (mm) */

static int      inpresflags;            /* input result flags */

static int      headlocked = 0;         /* lock vertical motion */

static int  getpixels(), xnewcolr(), freepixels(), resizewindow(), getframe(),
                getevent(), getkey(), moveview(), getmove(), fixwindow();
static unsigned long  true_pixel();


static int
mytmflags()                     /* figure out tone mapping flags */
{
        extern char     *progname;
        register char   *cp, *tail;
                                        /* find basic name */
        for (cp = tail = progname; *cp; cp++)
                if (*cp == '/')
                        tail = cp+1;
        for (cp = tail; *cp && *cp != '.'; cp++)
                ;
        if (cp-tail == 3 && !strncmp(tail, "x11", 3))
                return(TM_F_CAMERA|TM_F_NOSTDERR);
        if (cp-tail == 4 && !strncmp(tail, "x11h", 4))
                return(TM_F_HUMAN|TM_F_NOSTDERR);
        error(USER, "illegal driver name");
}


dev_open(id)                    /* initialize X11 driver */
char  *id;
{
        extern char  *getenv();
        static RGBPRIMS myprims = STDPRIMS;
        char  *ev;
        double  gamval = GAMMA;
        RGBPRIMP        dpri = stdprims;
        int  nplanes;
        XSetWindowAttributes    ourwinattr;
        XWMHints  ourxwmhints;
        XSizeHints      oursizhints;
                                        /* set quadtree globals */
        qtMinNodesiz = 2;
                                        /* open display server */
        ourdisplay = XOpenDisplay(NULL);
        if (ourdisplay == NULL)
                error(USER, "cannot open X-windows; DISPLAY variable set?\n");
                                        /* find a usable visual */
        nplanes = DisplayPlanes(ourdisplay, ourscreen);
        if (XMatchVisualInfo(ourdisplay,ourscreen,
                                nplanes>12?nplanes:24,TrueColor,&ourvinfo) ||
                        XMatchVisualInfo(ourdisplay,ourscreen,
                                nplanes>12?nplanes:24,DirectColor,&ourvinfo)) {
                ourblack = 0;
                ourwhite = ourvinfo.red_mask |
                                ourvinfo.green_mask |
                                ourvinfo.blue_mask ;
        } else {
                if (nplanes < 4)
                        error(INTERNAL, "not enough colors\n");
                if (!XMatchVisualInfo(ourdisplay,ourscreen,
                                        nplanes,PseudoColor,&ourvinfo) &&
                                !XMatchVisualInfo(ourdisplay,ourscreen,
                                        nplanes,GrayScale,&ourvinfo))
                        error(INTERNAL, "unsupported visual type\n");
                ourblack = BlackPixel(ourdisplay,ourscreen);
                ourwhite = WhitePixel(ourdisplay,ourscreen);
        }
                                        /* set gamma and tone mapping */
        if ((ev = XGetDefault(ourdisplay, "radiance", "gamma")) != NULL
                        || (ev = getenv("DISPLAY_GAMMA")) != NULL)
                gamval = atof(ev);
        if ((ev = getenv("DISPLAY_PRIMARIES")) != NULL &&
                        sscanf(ev, "%f %f %f %f %f %f %f %f",
                                &myprims[RED][CIEX],&myprims[RED][CIEY],
                                &myprims[GRN][CIEX],&myprims[GRN][CIEY],
                                &myprims[BLU][CIEX],&myprims[BLU][CIEY],
                                &myprims[WHT][CIEX],&myprims[WHT][CIEY]) >= 6)
                dpri = myprims;
        if (tmInit(mytmflags(), dpri, gamval) == NULL)
                error(SYSTEM, "not enough memory in dev_open");
                                        /* open window */
        ourwinattr.background_pixel = ourblack;
        ourwinattr.border_pixel = ourblack;
        ourwinattr.event_mask = ourmask;
                                        /* this is stupid */
        ourwinattr.colormap = XCreateColormap(ourdisplay, ourroot,
                                ourvinfo.visual, AllocNone);
        gwind = XCreateWindow(ourdisplay, ourroot, 0, 0,
                DisplayWidth(ourdisplay,ourscreen)-2*BORWIDTH,
                DisplayHeight(ourdisplay,ourscreen)-2*BORWIDTH,
                BORWIDTH, ourvinfo.depth, InputOutput, ourvinfo.visual,
                CWBackPixel|CWBorderPixel|CWColormap|CWEventMask, &ourwinattr);
        if (gwind == 0)
                error(SYSTEM, "cannot create window\n");
        XStoreName(ourdisplay, gwind, id);
                                        /* get graphics context */
        ourgc = XCreateGC(ourdisplay, gwind, 0, NULL);
                                        /* set window manager hints */
        ourxwmhints.flags = InputHint|IconPixmapHint;
        ourxwmhints.input = True;
        ourxwmhints.icon_pixmap = XCreateBitmapFromData(ourdisplay,
                        gwind, x11icon_bits, x11icon_width, x11icon_height);
        XSetWMHints(ourdisplay, gwind, &ourxwmhints);
        oursizhints.min_width = MINWIDTH;
        oursizhints.min_height = MINHEIGHT;
        oursizhints.flags = PMinSize;
        XSetNormalHints(ourdisplay, gwind, &oursizhints);
                                        /* figure out sensible view */
        pwidth = (double)DisplayWidthMM(ourdisplay, ourscreen) /
                        DisplayWidth(ourdisplay, ourscreen);
        pheight = (double)DisplayHeightMM(ourdisplay, ourscreen) /
                        DisplayHeight(ourdisplay, ourscreen);
        odev.v = stdview;
        odev.v.type = VT_PER;
                                        /* map the window and get its size */
        XMapWindow(ourdisplay, gwind);
        dev_input();                    /* sets size and view angles */
                                        /* allocate our leaf pile */
        if (!qtAllocLeaves(DisplayWidth(ourdisplay,ourscreen) *
                        DisplayHeight(ourdisplay,ourscreen) * 3 /
                        (qtMinNodesiz*qtMinNodesiz*2)))
                error(SYSTEM, "insufficient memory for leaf storage");
        odev.name = id;
        odev.ifd = ConnectionNumber(ourdisplay);
}


dev_close()                     /* close our display */
{
        freepixels();
        XFreeGC(ourdisplay, ourgc);
        XDestroyWindow(ourdisplay, gwind);
        gwind = 0;
        ourgc = 0;
        XCloseDisplay(ourdisplay);
        ourdisplay = NULL;
        qtFreeLeaves();
        tmDone(NULL);
        odev.v.type = 0;
        odev.hres = odev.vres = 0;
        odev.ifd = -1;
}


dev_clear()                     /* clear our quadtree */
{
        qtCompost(100);
        if (ncolors > 0)
                new_ctab(ncolors);
        rayqleft = 0;                   /* hold off update */
}


int
dev_view(nv)                    /* assign new driver view */
VIEW    *nv;
{
        if (nv->type == VT_PAR ||               /* check view legality */
                        nv->horiz > 160. || nv->vert > 160.) {
                error(COMMAND, "illegal view type/angle");
                nv->type = VT_PER;
                nv->horiz = odev.v.horiz;
                nv->vert = odev.v.vert;
                return(0);
        }
        if (nv->vfore > FTINY) {
                error(COMMAND, "cannot handle fore clipping");
                nv->vfore = 0.;
                return(0);
        }
        if (nv != &odev.v) {
                if (!FEQ(nv->horiz,odev.v.horiz) ||     /* resize window? */
                                !FEQ(nv->vert,odev.v.vert)) {
                        int     dw = DisplayWidth(ourdisplay,ourscreen);
                        int     dh = DisplayHeight(ourdisplay,ourscreen);

                        dw -= 25;       /* for window frame */
                        dh -= 50;
                        odev.hres = 2.*VIEWDIST/pwidth *
                                        tan(PI/180./2.*nv->horiz);
                        odev.vres = 2.*VIEWDIST/pheight *
                                        tan(PI/180./2.*nv->vert);
                        if (odev.hres > dw) {
                                odev.vres = dw * odev.vres / odev.hres;
                                odev.hres = dw;
                        }
                        if (odev.vres > dh) {
                                odev.hres = dh * odev.hres / odev.vres;
                                odev.vres = dh;
                        }
                        XResizeWindow(ourdisplay, gwind, odev.hres, odev.vres);
                        dev_input();    /* wait for resize event */
                }
                odev.v = *nv;
        }
        qtReplant();
        return(1);
}


dev_section(ofn)                /* add octree for geometry rendering */
char    *ofn;
{
        /* unimplemented */
}


dev_auxcom(cmd, args)           /* process an auxiliary command */
char    *cmd, *args;
{
        sprintf(errmsg, "%s: unknown command", cmd);
        error(COMMAND, errmsg);
}


VIEW *
dev_auxview(n, hvres)           /* return nth auxiliary view */
int     n;
int     hvres[2];
{
        if (n)
                return(NULL);
        hvres[0] = odev.hres; hvres[1] = odev.vres;
        return(&odev.v);
}


int
dev_input()                     /* get X11 input */
{
        inpresflags = 0;

        do
                getevent();

        while (XPending(ourdisplay) > 0);

        odev.inpready = 0;

        return(inpresflags);
}


dev_paintr(rgb, xmin, ymin, xmax, ymax)         /* fill a rectangle */
BYTE    rgb[3];
int  xmin, ymin, xmax, ymax;
{
        unsigned long  pixel;

        if (!mapped)
                return;
        if (ncolors > 0)
                pixel = pixval[get_pixel(rgb, xnewcolr)];
        else
                pixel = true_pixel(rgb);
        XSetForeground(ourdisplay, ourgc, pixel);
        XFillRectangle(ourdisplay, gwind, 
                ourgc, xmin, odev.vres-ymax, xmax-xmin, ymax-ymin);
}


int
dev_flush()                     /* flush output */
{
        qtUpdate();
        rayqleft = RAYQLEN;
        return(odev.inpready = XPending(ourdisplay));
}


static
xnewcolr(ndx, r, g, b)          /* enter a color into hardware table */
int  ndx;
int  r, g, b;
{
        XColor  xcolor;

        xcolor.pixel = pixval[ndx];
        xcolor.red = r << 8;
        xcolor.green = g << 8;
        xcolor.blue = b << 8;
        xcolor.flags = DoRed|DoGreen|DoBlue;

        XStoreColor(ourdisplay, ourmap, &xcolor);
}


static int
getpixels()                             /* get the color map */
{
        XColor  thiscolor;
        register int  i, j;

        if (ncolors > 0)
                return(ncolors);
        if (ourvinfo.visual == DefaultVisual(ourdisplay,ourscreen)) {
                ourmap = DefaultColormap(ourdisplay,ourscreen);
                goto loop;
        }
newmap:
        ourmap = XCreateColormap(ourdisplay,gwind,ourvinfo.visual,AllocNone);
loop:
        for (ncolors = ourvinfo.colormap_size;
                        ncolors > ourvinfo.colormap_size/3;
                        ncolors = ncolors*.937) {
                pixval = (unsigned long *)malloc(ncolors*sizeof(unsigned long));
                if (pixval == NULL)
                        return(ncolors = 0);
                if (XAllocColorCells(ourdisplay,ourmap,0,NULL,0,pixval,ncolors))
                        break;
                free((void *)pixval);
                pixval = NULL;
        }
        if (pixval == NULL) {
                if (ourmap == DefaultColormap(ourdisplay,ourscreen))
                        goto newmap;            /* try it with our map */
                else
                        return(ncolors = 0);    /* failed */
        }
        if (ourmap != DefaultColormap(ourdisplay,ourscreen))
                for (i = 0; i < ncolors; i++) { /* reset black and white */
                        if (pixval[i] != ourblack && pixval[i] != ourwhite)
                                continue;
                        thiscolor.pixel = pixval[i];
                        thiscolor.flags = DoRed|DoGreen|DoBlue;
                        XQueryColor(ourdisplay,
                                        DefaultColormap(ourdisplay,ourscreen),
                                        &thiscolor);
                        XStoreColor(ourdisplay, ourmap, &thiscolor);
                        for (j = i; j+1 < ncolors; j++)
                                pixval[j] = pixval[j+1];
                        ncolors--;
                        i--;
                }
        XSetWindowColormap(ourdisplay, gwind, ourmap);
        return(ncolors);
}


static
freepixels()                            /* free our pixels */
{
        if (ncolors == 0)
                return;
        XFreeColors(ourdisplay,ourmap,pixval,ncolors,0L);
        free((void *)pixval);
        pixval = NULL;
        ncolors = 0;
        if (ourmap != DefaultColormap(ourdisplay,ourscreen))
                XFreeColormap(ourdisplay, ourmap);
        ourmap = 0;
}


static unsigned long
true_pixel(rgb)                 /* return true pixel value for color */
register BYTE   rgb[3];
{
        register unsigned long  rval;

        rval = ourvinfo.red_mask*rgb[RED]/255 & ourvinfo.red_mask;
        rval |= ourvinfo.green_mask*rgb[GRN]/255 & ourvinfo.green_mask;
        rval |= ourvinfo.blue_mask*rgb[BLU]/255 & ourvinfo.blue_mask;
        return(rval);
}


static
getevent()                      /* get next event */
{
        XNextEvent(ourdisplay, levptr(XEvent));
        switch (levptr(XEvent)->type) {
        case ConfigureNotify:
                resizewindow(levptr(XConfigureEvent));
                break;
        case UnmapNotify:
                mapped = 0;
                freepixels();
                break;
        case MapNotify:
                if (ourvinfo.class == PseudoColor ||
                                ourvinfo.class == GrayScale) {
                        if (getpixels() == 0)
                                error(SYSTEM, "cannot allocate colors\n");
                        new_ctab(ncolors);
                }
                mapped = 1;
                break;
        case Expose:
                fixwindow(levptr(XExposeEvent));
                break;
        case KeyPress:
                getkey(levptr(XKeyPressedEvent));
                break;
        case ButtonPress:
                if (FRAMESTATE(levptr(XButtonPressedEvent)->state))
                        getframe(levptr(XButtonPressedEvent));
                else
                        getmove(levptr(XButtonPressedEvent));
                break;
        }
}


static
ilclip(dp, wp)                  /* clip world coordinates to device */
int     dp[2][2];
FVECT   wp[2];
{
        static FVECT    vmin = {0.,0.,0.}, vmax = {1.-FTINY,1.-FTINY,FHUGE};
        FVECT   wpc[2], ip[2];
        double  d, d0, d1;
                                /* check for points behind view */
        d = DOT(odev.v.vp, odev.v.vdir);
        d0 = DOT(wp[0], odev.v.vdir) - d;
        d1 = DOT(wp[1], odev.v.vdir) - d;
                                /* work on copy of world points */
        if (d0 <= d1) {
                VCOPY(wpc[0], wp[0]); VCOPY(wpc[1], wp[1]);
        } else {
                d = d0; d0 = d1; d1 = d;
                VCOPY(wpc[1], wp[0]); VCOPY(wpc[0], wp[1]);
        }
        if (d0 <= FTINY) {
                if (d1 <= FTINY) return(0);
                VSUB(wpc[0], wpc[0], wpc[1]);
                d = .99*d1/(d1-d0);
                VSUM(wpc[0], wpc[1], wpc[0], d);
        }
                                /* get view coordinates and clip to window */
        viewloc(ip[0], &odev.v, wpc[0]);
        viewloc(ip[1], &odev.v, wpc[1]);
        if (!clip(ip[0], ip[1], vmin, vmax))
                return(0);
        dp[0][0] = ip[0][0]*odev.hres;
        dp[0][1] = ip[0][1]*odev.vres;
        dp[1][0] = ip[1][0]*odev.hres;
        dp[1][1] = ip[1][1]*odev.vres;
        return(1);
}


static
draw3dline(wp)                  /* draw 3d line in world coordinates */
FVECT   wp[2];
{
        int     dp[2][2];

        if (!ilclip(dp, wp))
                return;
        XDrawLine(ourdisplay, gwind, ourgc,
                        dp[0][0], odev.vres-1 - dp[0][1],
                        dp[1][0], odev.vres-1 - dp[1][1]);
}


static
draw_grids()                    /* draw holodeck section grids */
{
        static BYTE     gridrgb[3] = {0x0, 0xff, 0xff};
        unsigned long  pixel;

        if (ncolors > 0)
                pixel = pixval[get_pixel(gridrgb, xnewcolr)];
        else
                pixel = true_pixel(gridrgb);
        XSetForeground(ourdisplay, ourgc, pixel);
                                        /* draw each grid line */
        gridlines(draw3dline);
}


static
moveview(dx, dy, mov, orb)      /* move our view */
int     dx, dy, mov, orb;
{
        VIEW    nv;
        FVECT   odir, v1;
        double  d;
        register int    li;
                                /* start with old view */
        nv = odev.v;
                                /* change view direction */
        if (mov | orb) {
                if ((li = qtFindLeaf(dx, dy)) < 0)
                        return(0);      /* not on window */
                VSUM(odir, qtL.wp[li], nv.vp, -1.);
        } else {
                if (viewray(nv.vp, nv.vdir, &odev.v,
                                (dx+.5)/odev.hres, (dy+.5)/odev.vres) < -FTINY)
                        return(0);      /* outside view */
        }
        if (orb && mov) {               /* orbit left/right */
                spinvector(odir, odir, nv.vup, d=MOVDEG*PI/180.*mov);
                VSUM(nv.vp, qtL.wp[li], odir, -1.);
                spinvector(nv.vdir, nv.vdir, nv.vup, d);
        } else if (orb) {               /* orbit up/down */
                fcross(v1, odir, nv.vup);
                if (normalize(v1) == 0.)
                        return(0);
                spinvector(odir, odir, v1, d=MOVDEG*PI/180.*orb);
                VSUM(nv.vp, qtL.wp[li], odir, -1.);
                spinvector(nv.vdir, nv.vdir, v1, d);
        } else if (mov) {               /* move forward/backward */
                d = MOVPCT/100. * mov;
                VSUM(nv.vp, nv.vp, odir, d);
        }
        if (!mov ^ !orb && headlocked) {        /* restore head height */
                VSUM(v1, odev.v.vp, nv.vp, -1.);
                d = DOT(v1, odev.v.vup);
                VSUM(nv.vp, nv.vp, odev.v.vup, d);
        }
        if (setview(&nv) != NULL)
                return(0);      /* illegal view */
        dev_view(&nv);
        inpresflags |= DFL(DC_SETVIEW);
        return(1);
}


static
getframe(ebut)                          /* get focus frame */
XButtonPressedEvent     *ebut;
{
        int     startx = ebut->x, starty = ebut->y;
        int     endx, endy;

        XMaskEvent(ourdisplay, ButtonReleaseMask, levptr(XEvent));
        endx = levptr(XButtonReleasedEvent)->x;
        endy = levptr(XButtonReleasedEvent)->y;
        if ((endx == startx) | (endy == starty)) {
                XBell(ourdisplay, 0);
                return;
        }
        if (endx < startx) {register int c = endx; endx = startx; startx = c;}
        if (endy < starty) {register int c = endy; endy = starty; starty = c;}
        sprintf(odev_args, "%.3f %.3f %.3f %.3f",
                        (startx+.5)/odev.hres, 1.-(endy+.5)/odev.vres,
                        (endx+.5)/odev.hres, 1.-(starty+.5)/odev.vres);
        inpresflags |= DFL(DC_FOCUS);
}


static
waitabit()                              /* pause a moment */
{
        struct timespec ts;
        ts.tv_sec = 0;
        ts.tv_nsec = 50000000;
        nanosleep(&ts, NULL);
}


static
getmove(ebut)                           /* get view change */
XButtonPressedEvent     *ebut;
{
        int     movdir = MOVDIR(ebut->button);
        int     movorb = MOVORB(ebut->state);
        int     oldnodesiz = qtMinNodesiz;
        Window  rootw, childw;
        int     rootx, rooty, wx, wy;
        unsigned int    statemask;

        qtMinNodesiz = 16;              /* for quicker update */
        XNoOp(ourdisplay);

        while (!XCheckMaskEvent(ourdisplay,
                        ButtonReleaseMask, levptr(XEvent))) {
                waitabit();
                if (!XQueryPointer(ourdisplay, gwind, &rootw, &childw,
                                &rootx, &rooty, &wx, &wy, &statemask))
                        break;          /* on another screen */

                if (!moveview(wx, odev.vres-1-wy, movdir, movorb)) {
                        sleep(1);
                        continue;
                }
                XClearWindow(ourdisplay, gwind);
                qtUpdate();
                draw_grids();
        }
        if (!(inpresflags & DFL(DC_SETVIEW))) { /* do final motion */
                movdir = MOVDIR(levptr(XButtonReleasedEvent)->button);
                wx = levptr(XButtonReleasedEvent)->x;
                wy = levptr(XButtonReleasedEvent)->y;
                moveview(wx, odev.vres-1-wy, movdir, movorb);
        }
        dev_flush();

        qtMinNodesiz = oldnodesiz;      /* restore quadtree resolution */
}


static
getkey(ekey)                            /* get input key */
register XKeyPressedEvent  *ekey;
{
        Window  rootw, childw;
        int     rootx, rooty, wx, wy;
        unsigned int    statemask;
        int  n;
        char    buf[8];

        n = XLookupString(ekey, buf, sizeof(buf), NULL, NULL);
        if (n != 1)
                return;
        switch (buf[0]) {
        case 'h':                       /* turn on height motion lock */
                headlocked = 1;
                return;
        case 'H':                       /* turn off height motion lock */
                headlocked = 0;
                return;
        case 'l':                       /* retrieve last view */
                inpresflags |= DFL(DC_LASTVIEW);
                return;
        case 'f':                       /* frame view position */
                if (!XQueryPointer(ourdisplay, gwind, &rootw, &childw,
                                &rootx, &rooty, &wx, &wy, &statemask))
                        return;         /* on another screen */
                sprintf(odev_args, "%.4f %.4f", (wx+.5)/odev.hres,
                                1.-(wy+.5)/odev.vres);
                inpresflags |= DFL(DC_FOCUS);
                return;
        case 'F':                       /* unfocus */
                odev_args[0] = '\0';
                inpresflags |= DFL(DC_FOCUS);
                return;
        case 'p':                       /* pause computation */
                inpresflags |= DFL(DC_PAUSE);
                return;
        case 'v':                       /* spit out view */
                inpresflags |= DFL(DC_GETVIEW);
                return;
        case '\n':
        case '\r':                      /* resume computation */
                inpresflags |= DFL(DC_RESUME);
                return;
        case CTRL('R'):                 /* redraw screen */
                if (ncolors > 0)
                        new_ctab(ncolors);
                qtRedraw(0, 0, odev.hres, odev.vres);
                return;
        case CTRL('L'):                 /* refresh from server */
                if (inpresflags & DFL(DC_REDRAW))
                        return;
                XClearWindow(ourdisplay, gwind);
                draw_grids();
                XFlush(ourdisplay);
                qtCompost(100);                 /* unload the old tree */
                if (ncolors > 0)
                        new_ctab(ncolors);
                inpresflags |= DFL(DC_REDRAW);  /* resend values from server */
                rayqleft = 0;                   /* hold off update */
                return;
        case 'K':                       /* kill rtrace process(es) */
                inpresflags |= DFL(DC_KILL);
                break;
        case 'R':                       /* restart rtrace */
                inpresflags |= DFL(DC_RESTART);
                break;
        case 'C':                       /* clobber holodeck */
                inpresflags |= DFL(DC_CLOBBER);
                break;
        case 'q':                       /* quit the program */
                inpresflags |= DFL(DC_QUIT);
                return;
        default:
                XBell(ourdisplay, 0);
                return;
        }
}


static
fixwindow(eexp)                         /* repair damage to window */
register XExposeEvent  *eexp;
{
        if (odev.hres == 0 || odev.vres == 0) { /* first exposure */
                odev.hres = eexp->width;
                odev.vres = eexp->height;
        }
        qtRedraw(eexp->x, odev.vres - eexp->y - eexp->height,
                        eexp->x + eexp->width, odev.vres - eexp->y);
}


static
resizewindow(ersz)                      /* resize window */
register XConfigureEvent  *ersz;
{
        if (ersz->width == odev.hres && ersz->height == odev.vres)
                return;

        odev.hres = ersz->width;
        odev.vres = ersz->height;

        odev.v.horiz = 2.*180./PI * atan(0.5/VIEWDIST*pwidth*odev.hres);
        odev.v.vert = 2.*180./PI * atan(0.5/VIEWDIST*pheight*odev.vres);

        inpresflags |= DFL(DC_SETVIEW);
}
Revision:	3.35
Committed:	Sun Jul 27 22:12:02 2003 UTC (20 years, 8 months ago) by schorsch
Content type:	text/plain
Branch:	MAIN
Changes since 3.34:	+2 -2 lines
Log Message:	Added grouping parens to reduce ambiguity warnings.