src/px/x11image.c

#ifndef lint
static const char RCSid[] = "$Id";
#endif
/*
 *  x11image.c - driver for X-windows
 *
 *     3/1/90
 */

/*
 *  Modified for X11
 *
 *  January 1990
 *
 *  Anat Grynberg  and Greg Ward
 */


#include  "standard.h"

#include  <signal.h>
#include  <X11/Xlib.h>
#include  <X11/cursorfont.h>
#include  <X11/Xutil.h>
#include  <X11/Xatom.h>

#include  "color.h"
#include  "tonemap.h"
#include  "view.h"
#include  "x11raster.h"
#include  "random.h"

#define  FONTNAME       "8x13"          /* text font we'll use */

#define  CTRL(c)        ((c)-'@')

#define  BORWIDTH       5               /* border width */

#define  ICONSIZ        (8*10)          /* maximum icon dimension (even 8) */

#define  FIXWEIGHT      20              /* weight to add for fixation points */

#define  ourscreen      DefaultScreen(thedisplay)
#define  ourroot        RootWindow(thedisplay,ourscreen)

#define  revline(x0,y0,x1,y1)   XDrawLine(thedisplay,wind,revgc,x0,y0,x1,y1)

#define  redraw(x,y,w,h) patch_raster(wind,(x)-xoff,(y)-yoff,x,y,w,h,ourras)

double  gamcor = 2.2;                   /* gamma correction */
char  *gamstr = NULL;                   /* gamma value override */

int  dither = 1;                        /* dither colors? */
int  fast = 0;                          /* keep picture in Pixmap? */

char    *dispname = NULL;               /* our display name */

Window  wind = 0;                       /* our output window */
unsigned long  ourblack=0, ourwhite=1;  /* black and white for this visual */
int  maxcolors = 0;                     /* maximum colors */
int  greyscale = 0;                     /* in grey */

int  scale = 0;                         /* scalefactor; power of two */

int  xoff = 0;                          /* x image offset */
int  yoff = 0;                          /* y image offset */

int  parent = 0;                        /* number of children, -1 if child */
int  sequential = 0;                    /* display images in sequence */

char  *tout = "od";                     /* output of 't' command */
int  tinterv = 0;                       /* interval between mouse reports */

int  tmflags = TM_F_LINEAR;             /* tone mapping flags */

VIEW  ourview = STDVIEW;                /* image view parameters */
int  gotview = 0;                       /* got parameters from file */

COLR  *scanline;                        /* scan line buffer */
TMbright  *lscan;                       /* encoded luminance scanline */
BYTE  *cscan;                           /* encoded chroma scanline */
BYTE  *pscan;                           /* compute pixel scanline */

RESOLU  inpres;                         /* input resolution and ordering */
int  xmax, ymax;                        /* picture dimensions */
int  width, height;                     /* window size */
char  *fname = NULL;                    /* input file name */
FILE  *fin = NULL;                      /* input file */
long  *scanpos = NULL;                  /* scan line positions in file */
int  cury = 0;                          /* current scan location */

double  exposure = 1.0;                 /* exposure compensation used */

int  wrongformat = 0;                   /* input in another format? */

GC      ourgc;                          /* standard graphics context */
GC      revgc;                          /* graphics context with GXinvert */

int             *ourrank;               /* our visual class ranking */
XVisualInfo     ourvis;                 /* our visual */
XRASTER         *ourras;                /* our stored image */
unsigned char   *ourdata;               /* our image data */

struct {
        int  xmin, ymin, xsiz, ysiz;
}  bbox = {0, 0, 0, 0};                 /* current bbox */

char  *geometry = NULL;                 /* geometry specification */

char  icondata[ICONSIZ*ICONSIZ/8];      /* icon bitmap data */
int  iconwidth = 0, iconheight = 0;

char  *progname;

char  errmsg[128];

BYTE  clrtab[256][3];                   /* global color map */

extern long  ftell();

extern char  *getenv();

Display  *thedisplay;
Atom  closedownAtom, wmProtocolsAtom;

int  sigrecv;

void  onsig(int i) { sigrecv++; }


main(argc, argv)
int  argc;
char  *argv[];
{
        int  headline();
        int  i;
        int  pid;
        
        progname = argv[0];
        fin = stdin;

        for (i = 1; i < argc; i++)
                if (argv[i][0] == '-')
                        switch (argv[i][1]) {
                        case 'c':                       /* number of colors */
                                maxcolors = atoi(argv[++i]);
                                break;
                        case 'b':                       /* greyscale only */
                                greyscale = !greyscale;
                                break;
                        case 'm':                       /* monochrome */
                                greyscale = 1;
                                maxcolors = 2;
                                break;
                        case 'd':                       /* display or dither */
                                if (argv[i][2] == 'i')
                                        dispname = argv[++i];
                                else
                                        dither = !dither;
                                break;
                        case 'f':                       /* save pixmap */
                                fast = !fast;
                                break;
                        case 's':                       /* one at a time */
                                sequential = !sequential;
                                break;
                        case 'o':                       /* 't' output */
                                tout = argv[i]+2;
                                break;
                        case 't':                       /* msec interval */
                                tinterv = atoi(argv[++i]);
                                break;
                        case 'e':                       /* exposure comp. */
                                i++;
                                if (argv[i][0] == 'a') {
                                        tmflags = TM_F_CAMERA;
                                        break;
                                }
                                if (argv[i][0] == 'h') {
                                        tmflags = TM_F_HUMAN;
                                        break;
                                }
                                if (argv[i][0] != '+' && argv[i][0] != '-')
                                        goto userr;
                                scale = atoi(argv[i]);
                                break;
                        case 'g':                       /* gamma comp. */
                                if (argv[i][2] == 'e')
                                        geometry = argv[++i];
                                else
                                        gamstr = argv[++i];
                                break;
                        default:
                                goto userr;
                        }
                else if (argv[i][0] == '=')
                        geometry = argv[i];
                else
                        break;

        if (i > argc)
                goto userr;
        while (i < argc-1) {
                sigrecv = 0;
                signal(SIGCONT, onsig);
                if ((pid=fork()) == 0) {        /* a child for each picture */
                        parent = -1;
                        break;
                }
                if (pid < 0)
                        quiterr("fork failed");
                parent++;
                while (!sigrecv)
                        pause();        /* wait for wake-up call */
                i++;
        }
        if (i < argc) {                 /* open picture file */
                fname = argv[i];
                fin = fopen(fname, "r");
                if (fin == NULL)
                        quiterr("cannot open picture file");
        }
                                /* get header */
        getheader(fin, headline, NULL);
                                /* get picture dimensions */
        if (wrongformat || !fgetsresolu(&inpres, fin))
                quiterr("bad picture format");
        xmax = scanlen(&inpres);
        ymax = numscans(&inpres);
                                /* set view parameters */
        if (gotview && setview(&ourview) != NULL)
                gotview = 0;
        if ((scanline = (COLR *)malloc(xmax*sizeof(COLR))) == NULL)
                quiterr("out of memory");

        init(argc, argv);                       /* get file and open window */

        for ( ; ; )
                getevent();             /* main loop */
userr:
        fprintf(stderr,
"Usage: %s [-di disp][[-ge] spec][-b][-m][-d][-f][-c nclrs][-e spec][-g gamcor][-s][-ospec][-t intvl] pic ..\n",
                        progname);
        exit(1);
}


int
headline(s)             /* get relevant info from header */
char  *s;
{
        char  fmt[32];

        if (isexpos(s))
                exposure *= exposval(s);
        else if (formatval(fmt, s))
                wrongformat = strcmp(fmt, COLRFMT);
        else if (isview(s) && sscanview(&ourview, s) > 0)
                gotview++;
        return(0);
}


init(argc, argv)                        /* get data and open window */
int argc;
char **argv;
{
        XSetWindowAttributes    ourwinattr;
        XClassHint      xclshints;
        XWMHints        xwmhints;
        XSizeHints      xszhints;
        XTextProperty   windowName, iconName;
        XGCValues       xgcv;
        char    *name;
        register int    i;
        
        if (fname != NULL) {
                scanpos = (long *)malloc(ymax*sizeof(long));
                if (scanpos == NULL)
                        quiterr("out of memory");
                for (i = 0; i < ymax; i++)
                        scanpos[i] = -1;
                name = fname;
        } else
                name = progname;
                                /* remove directory prefix from name */
        for (i = strlen(name); i-- > 0; )
                if (name[i] == '/')
                        break;
        name += i+1;
        if ((thedisplay = XOpenDisplay(dispname)) == NULL)
                quiterr("cannot open display");
                                /* set gamma value */
        if (gamstr == NULL)             /* get it from the X server */
                gamstr = XGetDefault(thedisplay, "radiance", "gamma");
        if (gamstr == NULL)             /* get it from the environment */
                gamstr = getenv("DISPLAY_GAMMA");
        if (gamstr != NULL)
                gamcor = atof(gamstr);
                                /* get best visual for default screen */
        getbestvis();
                                /* store image */
        getras();
                                /* get size and position */
        xszhints.flags = 0;
        xszhints.width = xmax; xszhints.height = ymax;
        if (geometry != NULL) {
                i = XParseGeometry(geometry, &xszhints.x, &xszhints.y,
                                (unsigned *)&xszhints.width,
                                (unsigned *)&xszhints.height);
                if ((i&(WidthValue|HeightValue)) == (WidthValue|HeightValue))
                        xszhints.flags |= USSize;
                else
                        xszhints.flags |= PSize;
                if ((i&(XValue|YValue)) == (XValue|YValue)) {
                        xszhints.flags |= USPosition;
                        if (i & XNegative)
                                xszhints.x += DisplayWidth(thedisplay,
                                ourscreen)-1-xszhints.width-2*BORWIDTH;
                        if (i & YNegative)
                                xszhints.y += DisplayHeight(thedisplay,
                                ourscreen)-1-xszhints.height-2*BORWIDTH;
                }
        }
        /* open window */
        i = CWEventMask|CWCursor|CWBackPixel|CWBorderPixel;
        ourwinattr.border_pixel = ourwhite;
        ourwinattr.background_pixel = ourblack;
        if (ourvis.visual != DefaultVisual(thedisplay,ourscreen)) {
                ourwinattr.colormap = newcmap(thedisplay, ourscreen, ourvis.visual);
                i |= CWColormap;
        }
        ourwinattr.event_mask = ExposureMask|KeyPressMask|ButtonPressMask|
                        ButtonReleaseMask|ButtonMotionMask|StructureNotifyMask;
        ourwinattr.cursor = XCreateFontCursor(thedisplay, XC_diamond_cross);
        wind = XCreateWindow(thedisplay, ourroot, xszhints.x, xszhints.y,
                        xszhints.width, xszhints.height, BORWIDTH,
                        ourvis.depth, InputOutput, ourvis.visual,
                        i, &ourwinattr);
        if (wind == 0)
                quiterr("cannot create window");
        width = xmax;
        height = ymax;
        /* prepare graphics drawing context */
        if ((xgcv.font = XLoadFont(thedisplay, FONTNAME)) == 0)
                quiterr("cannot get font");
        xgcv.foreground = ourblack;
        xgcv.background = ourwhite;
        ourgc = XCreateGC(thedisplay, wind, GCForeground|GCBackground|
                        GCFont, &xgcv);
        xgcv.function = GXinvert;
        revgc = XCreateGC(thedisplay, wind, GCForeground|GCBackground|
                        GCFunction, &xgcv);

        /* set up the window manager */
        xwmhints.flags = InputHint|IconPixmapHint;
        xwmhints.input = True;
        xwmhints.icon_pixmap = XCreateBitmapFromData(thedisplay,
                        wind, icondata, iconwidth, iconheight);

        windowName.encoding = iconName.encoding = XA_STRING;
        windowName.format = iconName.format = 8;
        windowName.value = (u_char *)name;
        windowName.nitems = strlen(windowName.value);
        iconName.value = (u_char *)name;
        iconName.nitems = strlen(windowName.value);

        xclshints.res_name = NULL;
        xclshints.res_class = "Ximage";
        XSetWMProperties(thedisplay, wind, &windowName, &iconName,
                        argv, argc, &xszhints, &xwmhints, &xclshints);
        closedownAtom = XInternAtom(thedisplay, "WM_DELETE_WINDOW", False);
        wmProtocolsAtom = XInternAtom(thedisplay, "WM_PROTOCOLS", False);
        XSetWMProtocols(thedisplay, wind, &closedownAtom, 1);

        XMapWindow(thedisplay, wind);
} /* end of init */


quiterr(err)            /* print message and exit */
char  *err;
{
        register int  es;
        int  cs;

        if (es = err != NULL)
                fprintf(stderr, "%s: %s: %s\n", progname, 
                                fname==NULL?"<stdin>":fname, err);
        if (thedisplay != NULL)
                XCloseDisplay(thedisplay);
        if (parent < 0 & sigrecv == 0)
                kill(getppid(), SIGCONT);
        while (parent > 0 && wait(&cs) != -1) { /* wait for any children */
                if (es == 0)
                        es = cs>>8 & 0xff;
                parent--;
        }
        exit(es);
}


static int
viscmp(v1,v2)           /* compare visual to see which is better, descending */
register XVisualInfo    *v1, *v2;
{
        int     bad1 = 0, bad2 = 0;
        register int  *rp;

        if (v1->class == v2->class) {
                if (v1->class == TrueColor || v1->class == DirectColor) {
                                        /* prefer 24-bit to 32-bit */
                        if (v1->depth == 24 && v2->depth == 32)
                                return(-1);
                        if (v1->depth == 32 && v2->depth == 24)
                                return(1);
                                        /* go for maximum depth otherwise */
                        return(v2->depth - v1->depth);
                }
                                        /* don't be too greedy */
                if (maxcolors <= 1<<v1->depth && maxcolors <= 1<<v2->depth)
                        return(v1->depth - v2->depth);
                return(v2->depth - v1->depth);
        }
                                        /* prefer Pseudo when < 15-bit */
        if ((v1->class == TrueColor || v1->class == DirectColor) &&
                        v1->depth < 15)
                bad1 = 1;
        if ((v2->class == TrueColor || v2->class == DirectColor) &&
                        v2->depth < 15)
                bad2 = -1;
        if (bad1 | bad2)
                return(bad1+bad2);
                                        /* otherwise, use class ranking */
        for (rp = ourrank; *rp != -1; rp++) {
                if (v1->class == *rp)
                        return(-1);
                if (v2->class == *rp)
                        return(1);
        }
        return(0);
}


getbestvis()                    /* get the best visual for this screen */
{
#ifdef DEBUG
static char  vistype[][12] = {
                "StaticGray",
                "GrayScale",
                "StaticColor",
                "PseudoColor",
                "TrueColor",
                "DirectColor"
};
#endif
        static int      rankings[3][6] = {
                {TrueColor,DirectColor,PseudoColor,GrayScale,StaticGray,-1},
                {PseudoColor,GrayScale,StaticGray,-1},
                {PseudoColor,GrayScale,StaticGray,-1}
        };
        XVisualInfo     *xvi;
        int     vismatched;
        register int    i, j;

        if (greyscale) {
                ourrank = rankings[2];
                if (maxcolors < 2) maxcolors = 256;
        } else if (maxcolors >= 2 && maxcolors <= 256)
                ourrank = rankings[1];
        else {
                ourrank = rankings[0];
                maxcolors = 256;
        }
                                        /* find best visual */
        ourvis.screen = ourscreen;
        xvi = XGetVisualInfo(thedisplay,VisualScreenMask,&ourvis,&vismatched);
        if (xvi == NULL)
                quiterr("no visuals for this screen!");
#ifdef DEBUG
        fprintf(stderr, "Supported visuals:\n");
        for (i = 0; i < vismatched; i++)
                fprintf(stderr, "\ttype %s, depth %d\n",
                                vistype[xvi[i].class], xvi[i].depth);
#endif
        for (i = 0, j = 1; j < vismatched; j++)
                if (viscmp(&xvi[i],&xvi[j]) > 0)
                        i = j;
                                        /* compare to least acceptable */
        for (j = 0; ourrank[j++] != -1; )
                ;
        ourvis.class = ourrank[--j];
        ourvis.depth = 1;
        if (viscmp(&xvi[i],&ourvis) > 0)
                quiterr("inadequate visuals on this screen");
                                        /* OK, we'll use it */
        copystruct(&ourvis, &xvi[i]);
#ifdef DEBUG
        fprintf(stderr, "Selected visual type %s, depth %d\n",
                        vistype[ourvis.class], ourvis.depth);
#endif
                                        /* make appropriate adjustments */
        if (ourvis.class == GrayScale || ourvis.class == StaticGray)
                greyscale = 1;
        if (ourvis.depth <= 8 && ourvis.colormap_size < maxcolors)
                maxcolors = ourvis.colormap_size;
        if (ourvis.class == StaticGray) {
                ourblack = 0;
                ourwhite = 255;
        } else if (ourvis.class == PseudoColor) {
                ourblack = BlackPixel(thedisplay,ourscreen);
                ourwhite = WhitePixel(thedisplay,ourscreen);
                if ((ourblack|ourwhite) & ~255L) {
                        ourblack = 0;
                        ourwhite = 1;
                }
                if (maxcolors > 4)
                        maxcolors -= 2;
        } else {
                ourblack = 0;
                ourwhite = ourvis.red_mask|ourvis.green_mask|ourvis.blue_mask;
        }
        XFree((char *)xvi);
}


getras()                                /* get raster file */
{
        XVisualInfo     vinfo;

        if (maxcolors <= 2) {           /* monochrome */
                ourdata = (unsigned char *)malloc(ymax*((xmax+7)/8));
                if (ourdata == NULL)
                        goto fail;
                ourras = make_raster(thedisplay, &ourvis, 1, ourdata,
                                xmax, ymax, 8);
                if (ourras == NULL)
                        goto fail;
                getmono();
        } else if (ourvis.class == TrueColor | ourvis.class == DirectColor) {
                int  datsiz = ourvis.depth>16 ? sizeof(int32) : sizeof(int16);
                ourdata = (unsigned char *)malloc(datsiz*xmax*ymax);
                if (ourdata == NULL)
                        goto fail;
                ourras = make_raster(thedisplay, &ourvis, datsiz*8,
                                ourdata, xmax, ymax, datsiz*8);
                if (ourras == NULL)
                        goto fail;
                getfull();
        } else {
                ourdata = (unsigned char *)malloc(xmax*ymax);
                if (ourdata == NULL)
                        goto fail;
                ourras = make_raster(thedisplay, &ourvis, 8, ourdata,
                                xmax, ymax, 8);
                if (ourras == NULL)
                        goto fail;
                if (greyscale)
                        getgrey();
                else
                        getmapped();
                if (ourvis.class != StaticGray && !init_rcolors(ourras,clrtab))
                        goto fail;
        }
        return;
fail:
        quiterr("could not create raster image");
}


getevent()                              /* process the next event */
{
        XEvent xev;

        XNextEvent(thedisplay, &xev);
        switch ((int)xev.type) {
        case KeyPress:
                docom(&xev.xkey);
                break;
        case ConfigureNotify:
                width = xev.xconfigure.width;
                height = xev.xconfigure.height;
                break;
        case MapNotify:
                map_rcolors(ourras, wind);
                if (fast)
                        make_rpixmap(ourras, wind);
                if (!sequential & parent < 0 & sigrecv == 0) {
                        kill(getppid(), SIGCONT);
                        sigrecv--;
                }
                break;
        case UnmapNotify:
                if (!fast)
                        unmap_rcolors(ourras);
                break;
        case Expose:
                redraw(xev.xexpose.x, xev.xexpose.y,
                                xev.xexpose.width, xev.xexpose.height);
                break;
        case ButtonPress:
                if (xev.xbutton.state & (ShiftMask|ControlMask))
                        moveimage(&xev.xbutton);
                else
                        switch (xev.xbutton.button) {
                        case Button1:
                                getbox(&xev.xbutton);
                                break;
                        case Button2:
                                traceray(xev.xbutton.x, xev.xbutton.y);
                                break;
                        case Button3:
                                trackrays(&xev.xbutton);
                                break;
                        }
                break;
        case ClientMessage:
                if ((xev.xclient.message_type == wmProtocolsAtom) &&
                                (xev.xclient.data.l[0] == closedownAtom))
                        quiterr(NULL);
                break;
        }
}


traceray(xpos, ypos)                    /* print requested pixel data */
int  xpos, ypos;
{
        RREAL  hv[2];
        FVECT  rorg, rdir;
        COLOR  cval;
        register char  *cp;

        bbox.xmin = xpos; bbox.xsiz = 1;
        bbox.ymin = ypos; bbox.ysiz = 1;
        avgbox(cval);
        scalecolor(cval, 1./exposure);
        pix2loc(hv, &inpres, xpos-xoff, ypos-yoff);
        if (!gotview || viewray(rorg, rdir, &ourview, hv[0], hv[1]) < 0)
                rorg[0] = rorg[1] = rorg[2] =
                rdir[0] = rdir[1] = rdir[2] = 0.;

        for (cp = tout; *cp; cp++)      /* print what they asked for */
                switch (*cp) {
                case 'o':                       /* origin */
                        printf("%e %e %e ", rorg[0], rorg[1], rorg[2]);
                        break;
                case 'd':                       /* direction */
                        printf("%e %e %e ", rdir[0], rdir[1], rdir[2]);
                        break;
                case 'v':                       /* radiance value */
                        printf("%e %e %e ", colval(cval,RED),
                                        colval(cval,GRN), colval(cval,BLU));
                        break;
                case 'l':                       /* luminance */
                        printf("%e ", luminance(cval));
                        break;
                case 'p':                       /* pixel position */
                        printf("%d %d ", (int)(hv[0]*inpres.xr),
                                        (int)(hv[1]*inpres.yr));
                        break;
                }
        putchar('\n');
        fflush(stdout);
        return(0);
}


docom(ekey)                             /* execute command */
XKeyPressedEvent  *ekey;
{
        char  buf[80];
        COLOR  cval;
        XColor  cvx;
        int  com, n;
        double  comp;
        RREAL  hv[2];

        n = XLookupString(ekey, buf, sizeof(buf), NULL, NULL); 
        if (n == 0)
                return(0);
        com = buf[0];
        switch (com) {                  /* interpret command */
        case 'q':
        case 'Q':
        case CTRL('D'):                         /* quit */
                quiterr(NULL);
        case '\n':
        case '\r':
        case 'l':
        case 'c':                               /* value */
                if (!avgbox(cval))
                        return(-1);
                switch (com) {
                case '\n':
                case '\r':                              /* radiance */
                        sprintf(buf, "%.3f", intens(cval)/exposure);
                        break;
                case 'l':                               /* luminance */
                        sprintf(buf, "%.1fL", luminance(cval)/exposure);
                        break;
                case 'c':                               /* color */
                        comp = pow(2.0, (double)scale);
                        sprintf(buf, "(%.2f,%.2f,%.2f)",
                                        colval(cval,RED)*comp,
                                        colval(cval,GRN)*comp,
                                        colval(cval,BLU)*comp);
                        break;
                }
                XDrawImageString(thedisplay, wind, ourgc,
                                bbox.xmin, bbox.ymin+bbox.ysiz, buf, strlen(buf)); 
                return(0);
        case 'i':                               /* identify (contour) */
                if (ourras->pixels == NULL)
                        return(-1);
                n = ourdata[ekey->x-xoff+xmax*(ekey->y-yoff)];
                n = ourras->pmap[n];
                cvx.pixel = ourras->cdefs[n].pixel;
                cvx.red = random() & 65535;
                cvx.green = random() & 65535;
                cvx.blue = random() & 65535;
                cvx.flags = DoRed|DoGreen|DoBlue;
                XStoreColor(thedisplay, ourras->cmap, &cvx);
                return(0);
        case 'p':                               /* position */
                pix2loc(hv, &inpres, ekey->x-xoff, ekey->y-yoff);
                sprintf(buf, "(%d,%d)", (int)(hv[0]*inpres.xr),
                                (int)(hv[1]*inpres.yr));
                XDrawImageString(thedisplay, wind, ourgc, ekey->x, ekey->y,
                                        buf, strlen(buf));
                return(0);
        case 't':                               /* trace */
                return(traceray(ekey->x, ekey->y));
        case 'a':                               /* auto exposure */
                if (fname == NULL)
                        return(-1);
                tmflags = TM_F_CAMERA;
                strcpy(buf, "auto exposure...");
                goto remap;
        case 'h':                               /* human response */
                if (fname == NULL)
                        return(-1);
                tmflags = TM_F_HUMAN;
                strcpy(buf, "human exposure...");
                goto remap;
        case '=':                               /* adjust exposure */
        case '@':                               /* adaptation level */
                if (!avgbox(cval))
                        return(-1);
                comp = bright(cval);
                if (comp < 1e-20) {
                        XBell(thedisplay, 0);
                        return(-1);
                }
                if (com == '@')
                        comp = 106./exposure/
                        pow(1.219+pow(comp*WHTEFFICACY/exposure,.4),2.5);
                else
                        comp = .5/comp;
                comp = log(comp)/.69315 - scale;
                n = comp < 0 ? comp-.5 : comp+.5 ;      /* round */
                if (tmflags != TM_F_LINEAR)
                        tmflags = TM_F_LINEAR;  /* turn off tone mapping */
                else {
                        if (n == 0)             /* else check if any change */
                                return(0);
                        scale_rcolors(ourras, pow(2.0, (double)n));
                }
                scale += n;
                sprintf(buf, "%+d", scale);
        remap:
                XDrawImageString(thedisplay, wind, ourgc,
                                bbox.xmin, bbox.ymin+bbox.ysiz, buf, strlen(buf));
                XFlush(thedisplay);
                /* free(ourdata);       This is done in XDestroyImage()! */
                free_raster(ourras);
                getras();
        /* fall through */
        case CTRL('R'):                         /* redraw */
        case CTRL('L'):
                unmap_rcolors(ourras);
                XClearWindow(thedisplay, wind);
                map_rcolors(ourras, wind);
                if (fast)
                        make_rpixmap(ourras, wind);
                redraw(0, 0, width, height);
                return(0);
        case 'f':                               /* turn on fast redraw */
                fast = 1;
                make_rpixmap(ourras, wind);
                return(0);
        case 'F':                               /* turn off fast redraw */
                fast = 0;
                free_rpixmap(ourras);
                return(0);
        case '0':                               /* recenter origin */
                if (xoff == 0 & yoff == 0)
                        return(0);
                xoff = yoff = 0;
                XClearWindow(thedisplay, wind);
                redraw(0, 0, width, height);
                return(0);
        case ' ':                               /* clear */
                redraw(bbox.xmin, bbox.ymin, bbox.xsiz, bbox.ysiz);
                return(0);
        default:
                XBell(thedisplay, 0);
                return(-1);
        }
}


moveimage(ebut)                         /* shift the image */
XButtonPressedEvent  *ebut;
{
        XEvent  e;
        int     mxo, myo;

        XMaskEvent(thedisplay, ButtonReleaseMask|ButtonMotionMask, &e);
        while (e.type == MotionNotify) {
                mxo = e.xmotion.x;
                myo = e.xmotion.y;
                revline(ebut->x, ebut->y, mxo, myo);
                revbox(xoff+mxo-ebut->x, yoff+myo-ebut->y,
                                xoff+mxo-ebut->x+xmax, yoff+myo-ebut->y+ymax);
                XMaskEvent(thedisplay,ButtonReleaseMask|ButtonMotionMask,&e);
                revline(ebut->x, ebut->y, mxo, myo);
                revbox(xoff+mxo-ebut->x, yoff+myo-ebut->y,
                                xoff+mxo-ebut->x+xmax, yoff+myo-ebut->y+ymax);
        }
        xoff += e.xbutton.x - ebut->x;
        yoff += e.xbutton.y - ebut->y;
        XClearWindow(thedisplay, wind);
        redraw(0, 0, width, height);
}


getbox(ebut)                            /* get new bbox */
XButtonPressedEvent  *ebut;
{
        XEvent  e;

        XMaskEvent(thedisplay, ButtonReleaseMask|ButtonMotionMask, &e);
        while (e.type == MotionNotify) {
                revbox(ebut->x, ebut->y, bbox.xmin = e.xmotion.x, bbox.ymin = e.xmotion.y);
                XMaskEvent(thedisplay,ButtonReleaseMask|ButtonMotionMask,&e);
                revbox(ebut->x, ebut->y, bbox.xmin, bbox.ymin);
        }
        bbox.xmin = e.xbutton.x<0 ? 0 : (e.xbutton.x>=width ? width-1 : e.xbutton.x);
        bbox.ymin = e.xbutton.y<0 ? 0 : (e.xbutton.y>=height ? height-1 : e.xbutton.y);
        if (bbox.xmin > ebut->x) {
                bbox.xsiz = bbox.xmin - ebut->x + 1;
                bbox.xmin = ebut->x;
        } else {
                bbox.xsiz = ebut->x - bbox.xmin + 1;
        }
        if (bbox.ymin > ebut->y) {
                bbox.ysiz = bbox.ymin - ebut->y + 1;
                bbox.ymin = ebut->y;
        } else {
                bbox.ysiz = ebut->y - bbox.ymin + 1;
        }
}


trackrays(ebut)                         /* trace rays as mouse moves */
XButtonPressedEvent  *ebut;
{
        XEvent  e;
        unsigned long   lastrept;

        traceray(ebut->x, ebut->y);
        lastrept = ebut->time;
        XMaskEvent(thedisplay, ButtonReleaseMask|ButtonMotionMask, &e);
        while (e.type == MotionNotify) {
                if (e.xmotion.time >= lastrept + tinterv) {
                        traceray(e.xmotion.x, e.xmotion.y);
                        lastrept = e.xmotion.time;
                }
                XMaskEvent(thedisplay,ButtonReleaseMask|ButtonMotionMask,&e);
        }
}


revbox(x0, y0, x1, y1)                  /* draw bbox with reversed lines */
int  x0, y0, x1, y1;
{
        revline(x0, y0, x1, y0);
        revline(x0, y1, x1, y1);
        revline(x0, y0, x0, y1);
        revline(x1, y0, x1, y1);
}


int
colavg(scn, n, cavg)
register COLR   *scn;
register int    n;
COLOR   cavg;
{
        COLOR   col;

        while (n--) {
                colr_color(col, *scn++);
                addcolor(cavg, col);
        }
}


int
avgbox(cavg)                            /* average color over current bbox */
COLOR   cavg;
{
        double  d;
        register int    rval;

        setcolor(cavg, 0., 0., 0.);
        rval = dobox(colavg, (char *)cavg);
        if (rval > 0) {
                d = 1./rval;
                scalecolor(cavg, d);
        }
        return(rval);
}


int
dobox(f, p)                             /* run function over bbox */
int     (*f)();                 /* function to call for each subscan */
char    *p;                     /* pointer to private data */
{
        int  left, right, top, bottom;
        int  y;

        left = bbox.xmin - xoff;
        right = left + bbox.xsiz;
        if (left < 0)
                left = 0;
        if (right > xmax)
                right = xmax;
        if (left >= right)
                return(0);
        top = bbox.ymin - yoff;
        bottom = top + bbox.ysiz;
        if (top < 0)
                top = 0;
        if (bottom > ymax)
                bottom = ymax;
        if (top >= bottom)
                return(0);
        for (y = top; y < bottom; y++) {
                if (getscan(y) == -1)
                        return(-1);
                (*f)(scanline+left, right-left, p);
        }
        return((right-left)*(bottom-top));
}


int
addfix(scn, n)                  /* add fixation points to histogram */
COLR    *scn;
int     n;
{
        if (tmCvColrs(lscan, TM_NOCHROM, scn, n))
                goto tmerr;
        if (tmAddHisto(lscan, n, FIXWEIGHT))
                goto tmerr;
        return;
tmerr:
        quiterr("tone mapping error");
}


make_tonemap()                  /* initialize tone mapping */
{
        int  flags, y;

        if (tmflags != TM_F_LINEAR && fname == NULL) {
                fprintf(stderr, "%s: cannot adjust tone of standard input\n",
                                progname);
                tmflags = TM_F_LINEAR;
        }
        if (tmflags == TM_F_LINEAR) {   /* linear with clamping */
                setcolrcor(pow, 1.0/gamcor);
                return;
        }
        flags = tmflags;                /* histogram adjustment */
        if (greyscale) flags |= TM_F_BW;
        if (tmTop != NULL) {            /* reuse old histogram if one */
                tmDone(tmTop);
                tmTop->flags = flags;
        } else {                        /* else initialize */
                if ((lscan = (TMbright *)malloc(xmax*sizeof(TMbright))) == NULL)
                        goto memerr;
                if (greyscale) {
                        cscan = TM_NOCHROM;
                        if ((pscan = (BYTE *)malloc(sizeof(BYTE)*xmax)) == NULL)
                                goto memerr;
                } else if ((pscan=cscan = (BYTE *)malloc(3*sizeof(BYTE)*xmax))
                                == NULL)
                        goto memerr;
                                                /* initialize tm library */
                if (tmInit(flags, stdprims, gamcor) == NULL)
                        goto memerr;
                if (tmSetSpace(stdprims, WHTEFFICACY/exposure))
                        goto tmerr;
                                                /* compute picture histogram */
                for (y = 0; y < ymax; y++) {
                        getscan(y);
                        if (tmCvColrs(lscan, TM_NOCHROM, scanline, xmax))
                                goto tmerr;
                        if (tmAddHisto(lscan, xmax, 1))
                                goto tmerr;
                }
        }
        tmDup();                        /* add fixations to duplicate map */
        dobox(addfix, NULL);
                                        /* (re)compute tone mapping */
        if (tmComputeMapping(gamcor, 0., 0.))
                goto tmerr;
        return;
memerr:
        quiterr("out of memory in make_tonemap");
tmerr:
        quiterr("tone mapping error");
}


tmap_colrs(scn, len)            /* apply tone mapping to scanline */
register COLR  *scn;
int  len;
{
        register BYTE  *ps;

        if (tmflags == TM_F_LINEAR) {
                if (scale)
                        shiftcolrs(scn, len, scale);
                colrs_gambs(scn, len);
                return;
        }
        if (len > xmax)
                quiterr("code error 1 in tmap_colrs");
        if (tmCvColrs(lscan, cscan, scn, len))
                goto tmerr;
        if (tmMapPixels(pscan, lscan, cscan, len))
                goto tmerr;
        ps = pscan;
        if (greyscale)
                while (len--) {
                        scn[0][RED] = scn[0][GRN] = scn[0][BLU] = *ps++;
                        scn[0][EXP] = COLXS;
                        scn++;
                }
        else
                while (len--) {
                        scn[0][RED] = *ps++;
                        scn[0][GRN] = *ps++;
                        scn[0][BLU] = *ps++;
                        scn[0][EXP] = COLXS;
                        scn++;
                }
        return;
tmerr:
        quiterr("tone mapping error");
}


getmono()                       /* get monochrome data */
{
        register unsigned char  *dp;
        register int    x, err;
        int     y, errp;
        short   *cerr;

        if ((cerr = (short *)calloc(xmax,sizeof(short))) == NULL)
                quiterr("out of memory in getmono");
        dp = ourdata - 1;
        for (y = 0; y < ymax; y++) {
                getscan(y);
                add2icon(y, scanline);
                normcolrs(scanline, xmax, scale);
                err = 0;
                for (x = 0; x < xmax; x++) {
                        if (!(x&7))
                                *++dp = 0;
                        errp = err;
                        err += normbright(scanline[x]) + cerr[x];
                        if (err > 127)
                                err -= 255;
                        else
                                *dp |= 1<<(7-(x&07));
                        err /= 3;
                        cerr[x] = err + errp;
                }
        }
        free((void *)cerr);
}


add2icon(y, scan)               /* add a scanline to our icon data */
int  y;
COLR  *scan;
{
        static short  cerr[ICONSIZ];
        static int  ynext;
        static char  *dp;
        COLR  clr;
        register int  err;
        register int    x, ti;
        int  errp;

        if (iconheight == 0) {          /* initialize */
                if (xmax <= ICONSIZ && ymax <= ICONSIZ) {
                        iconwidth = xmax;
                        iconheight = ymax;
                } else if (xmax > ymax) {
                        iconwidth = ICONSIZ;
                        iconheight = ICONSIZ*ymax/xmax;
                        if (iconheight < 1)
                                iconheight = 1;
                } else {
                        iconwidth = ICONSIZ*xmax/ymax;
                        if (iconwidth < 1)
                                iconwidth = 1;
                        iconheight = ICONSIZ;
                }
                ynext = 0;
                dp = icondata - 1;
        }
        if (y < ynext*ymax/iconheight)  /* skip this one */
                return;
        err = 0;
        for (x = 0; x < iconwidth; x++) {
                if (!(x&7))
                        *++dp = 0;
                errp = err;
                ti = x*xmax/iconwidth;
                copycolr(clr, scan[ti]);
                normcolrs(&clr, 1, scale);
                err += normbright(clr) + cerr[x];
                if (err > 127)
                        err -= 255;
                else
                        *dp |= 1<<(x&07);
                err /= 3;
                cerr[x] = err + errp;
        }
        ynext++;
}


getfull()                       /* get full (24-bit) data */
{
        int     y;
        register uint32 *dp;
        register uint16 *dph;
        register int    x;
                                        /* initialize tone mapping */
        make_tonemap();
                                        /* read and convert file */
        dp = (uint32 *)ourdata;
        dph = (uint16 *)ourdata;
        for (y = 0; y < ymax; y++) {
                getscan(y);
                add2icon(y, scanline);
                tmap_colrs(scanline, xmax);
                switch (ourras->image->blue_mask) {
                case 0xff:              /* 24-bit RGB */
                        for (x = 0; x < xmax; x++)
                                *dp++ = (uint32)scanline[x][RED] << 16 |
                                        (uint32)scanline[x][GRN] << 8 |
                                        (uint32)scanline[x][BLU] ;
                        break;
                case 0xff0000:          /* 24-bit BGR */
                        for (x = 0; x < xmax; x++)
                                *dp++ = (uint32)scanline[x][RED] |
                                        (uint32)scanline[x][GRN] << 8 |
                                        (uint32)scanline[x][BLU] << 16 ;
                        break;
#if 0
                case 0x1f:              /* 15-bit RGB */
                        for (x = 0; x < xmax; x++)
                                *dph++ =        (scanline[x][RED] << 7 & 0x7c00) |
                                        (scanline[x][GRN] << 2 & 0x3e0) |
                                        (unsigned)scanline[x][BLU] >> 3 ;
                        break;
                case 0x7c00:            /* 15-bit BGR */
                        for (x = 0; x < xmax; x++)
                                *dph++ =        (unsigned)scanline[x][RED] >> 3 |
                                        (scanline[x][GRN] << 2 & 0x3e0) |
                                        (scanline[x][BLU] << 7 & 0x7c00) ;
                        break;
#endif
                default:                /* unknown */
                        if (ourvis.depth > 16)
                                for (x = 0; x < xmax; x++) {
                                        *dp = ourras->image->red_mask &
                                                ourras->image->red_mask*scanline[x][RED]/255;
                                        *dp |= ourras->image->green_mask &
                                                ourras->image->green_mask*scanline[x][GRN]/255;
                                        *dp++ |= ourras->image->blue_mask &
                                                ourras->image->blue_mask*scanline[x][BLU]/255;
                                }
                        else
                                for (x = 0; x < xmax; x++) {
                                        *dph = ourras->image->red_mask &
                                                ourras->image->red_mask*scanline[x][RED]/255;
                                        *dph |= ourras->image->green_mask &
                                                ourras->image->green_mask*scanline[x][GRN]/255;
                                        *dph++ |= ourras->image->blue_mask &
                                                ourras->image->blue_mask*scanline[x][BLU]/255;
                                }
                        break;
                }
        }
}


getgrey()                       /* get greyscale data */
{
        int     y;
        register unsigned char  *dp;
        register int    x;
                                        /* initialize tone mapping */
        make_tonemap();
                                        /* read and convert file */
        dp = ourdata;
        for (y = 0; y < ymax; y++) {
                getscan(y);
                add2icon(y, scanline);
                tmap_colrs(scanline, xmax);
                if (maxcolors < 256)
                        for (x = 0; x < xmax; x++)
                                *dp++ = ((int32)scanline[x][GRN] *
                                        maxcolors + maxcolors/2) >> 8;
                else
                        for (x = 0; x < xmax; x++)
                                *dp++ = scanline[x][GRN];
        }
        for (x = 0; x < maxcolors; x++)
                clrtab[x][RED] = clrtab[x][GRN] =
                        clrtab[x][BLU] = ((int32)x*256 + 128)/maxcolors;
}


getmapped()                     /* get color-mapped data */
{
        int     y;
                                        /* make sure we can do it first */
        if (fname == NULL)
                quiterr("cannot map colors from standard input");
                                        /* initialize tone mapping */
        make_tonemap();
                                        /* make histogram */
        if (new_histo((int32)xmax*ymax) == -1)
                quiterr("cannot initialize histogram");
        for (y = 0; y < ymax; y++) {
                if (getscan(y) < 0)
                        break;
                add2icon(y, scanline);
                tmap_colrs(scanline, xmax);
                cnt_colrs(scanline, xmax);
        }
                                        /* map pixels */
        if (!new_clrtab(maxcolors))
                quiterr("cannot create color map");
        for (y = 0; y < ymax; y++) {
                getscan(y);
                tmap_colrs(scanline, xmax);
                if (dither)
                        dith_colrs(ourdata+y*xmax, scanline, xmax);
                else
                        map_colrs(ourdata+y*xmax, scanline, xmax);
        }
}


scale_rcolors(xr, sf)                   /* scale color map */
register XRASTER        *xr;
double  sf;
{
        register int    i;
        long    maxv;

        if (xr->pixels == NULL)
                return;

        sf = pow(sf, 1.0/gamcor);
        maxv = 65535/sf;

        for (i = xr->ncolors; i--; ) {
                xr->cdefs[i].red = xr->cdefs[i].red > maxv ?
                                65535 :
                                xr->cdefs[i].red * sf;
                xr->cdefs[i].green = xr->cdefs[i].green > maxv ?
                                65535 :
                                xr->cdefs[i].green * sf;
                xr->cdefs[i].blue = xr->cdefs[i].blue > maxv ?
                                65535 :
                                xr->cdefs[i].blue * sf;
        }
        XStoreColors(thedisplay, xr->cmap, xr->cdefs, xr->ncolors);
}


getscan(y)
int  y;
{
        static int  trunced = -1;               /* truncated file? */
skipit:
        if (trunced >= 0 && y >= trunced) {
                bzero(scanline, xmax*sizeof(COLR));
                return(-1);
        }
        if (y != cury) {
                if (scanpos == NULL || scanpos[y] == -1)
                        return(-1);
                if (fseek(fin, scanpos[y], 0) == -1)
                        quiterr("fseek error");
                cury = y;
        } else if (scanpos != NULL && scanpos[y] == -1)
                scanpos[y] = ftell(fin);

        if (freadcolrs(scanline, xmax, fin) < 0) {
                fprintf(stderr, "%s: %s: unfinished picture\n",
                                progname, fname==NULL?"<stdin>":fname);
                trunced = y;
                goto skipit;
        }
        cury++;
        return(0);
}
Revision:	2.60
Committed:	Thu Jun 26 00:58:10 2003 UTC (20 years, 10 months ago) by schorsch
Content type:	text/plain
Branch:	MAIN
Changes since 2.59:	+2 -2 lines
Log Message:	Abstracted process and path handling for Windows. Renamed FLOAT to RREAL because of conflict on Windows. Added conditional compiles for some signal handlers.