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[/] [or1k/] [tags/] [MW_0_8_9PRE7/] [mw/] [src/] [demos/] [nanox/] [world.c] - Rev 1765
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/* * Draw a crude map of the world using mini-X graphics on MINIX. * Converted from an Amiga program by Mike Groshart and Bob Dufford. * Author: David I. Bell * * ported to 16 bit systems by Greg Haerr */ #include <stdio.h> #include <string.h> #define MWINCLUDECOLORS #include "nano-X.h" #if defined(MSDOS) || defined(__ECOS) #include <fcntl.h> #endif #if LINUX | DOS_DJGPP #include <sys/types.h> #include <sys/stat.h> #include <fcntl.h> #include <unistd.h> #endif #ifndef O_BINARY #define O_BINARY 0 #endif #if defined(DOS_DJGPP) || defined(__ECOS) #define MAPFILE "/world.map" #else #define MAPFILE "demos/nanox/world.map" /* was /usr/lib*/ #endif #define SELECTBUTTON GR_BUTTON_L #define COORDBUTTON GR_BUTTON_R /* * Definitions to use fixed point in place of true floating point. */ typedef long FLOAT; #define SCALE 100 /* fixed point scaling factor */ #define FFMUL(a,b) (((FLOAT)(a) * (b) + (SCALE / 2)) / SCALE) #define FFDIV(a,b) (((FLOAT)(a) * SCALE) / (b)) #define FIMUL(a,b) ((FLOAT)(a) * (b)) #define FIDIV(a,b) ((FLOAT)(a) / (b)) #define ITOF(a) ((FLOAT)(a) * SCALE) #define FTOI(a) (((FLOAT)(a) + (SCALE / 2)) / SCALE) #define QSPAN (90L*60*SCALE) /* equator to pole (90 degrees) */ #define HSPAN (QSPAN*2) /* pole to pole (180 degrees) */ #define WSPAN (QSPAN*4) /* around equator (360 degrees) */ #define ABS(n) (((n) < 0) ? -(n) : (n)) /* * Structure of a point in the database file. */ typedef struct { short Code; /* type of point (see code_colors below) */ short Lat; /* latitude in minutes */ short Lon; /* longitude in minutes */ } MWPACKED DBPOINT; #if BIGENDIAN #define SHORT_SWAP(p) (p = ((p & 0xff) << 8) | ((p >> 8) & 0xff)) #define DBPOINT_CONVERT(p) (SHORT_SWAP(p->Code),SHORT_SWAP(p->Lat),SHORT_SWAP(p->Lon)) #else #define DBPOINT_CONVERT(p) ((void)p) #endif #define POINTSize sizeof(DBPOINT) #define PCount 128 /* number of points to read at once */ /* * The following variables are the scaling factors to be used when drawing * points. However, they are larger than the true value by a factor of 60. * This is done because without real floating point, their true values are * too small to be accurate enough. I cannot just increase the fixed point * precision because that causes overflows. What a pain! */ static FLOAT X_Scale; static FLOAT Y_Scale; /* * Other variables. */ static FLOAT Latitude, Longitude; /* current center of view */ static FLOAT zoom; /* current zoom scaling factor */ static FLOAT latradius; /* half of view of latitide */ static FLOAT longradius; /* half of view of longitude */ static FLOAT viewlong; /* amount of longitide in view */ static FLOAT viewlat; /* amount of latitude in view */ static GR_SIZE mapwidth; /* width of map in pixels */ static GR_SIZE mapheight; /* height of map in pixels */ static GR_COORD mapxorig; /* one half of map width */ static GR_COORD mapyorig; /* one half of map height */ static GR_COORD selectx; /* x position of current selection */ static GR_COORD selecty; /* y position of current selection */ static GR_COORD selectptrx; /* x position of pointer in selection */ static GR_COORD selectptry; /* y position of pointer in selection */ static GR_SIZE selectwidth; /* width of current selection */ static GR_SIZE selectheight; /* height of current selection */ static int selectmode; /* selection mode */ static GR_BOOL selectvisible; /* TRUE if selection is visible on screen */ static GR_SIZE selectxscale; /* x scaling factor for selection rectangle */ static GR_SIZE selectyscale; /* y scaling factor for selection rectangle */ static GR_BOOL coordvisible; /* TRUE if coordinates are visible on screen */ static GR_BOOL coordenabled; /* TRUE if coordinate display is enabled */ static GR_COORD coordx; /* x position of coordinates */ static GR_COORD coordy; /* y position of coordinates */ static GR_COORD ptrx; /* latest x position of pointer */ static GR_COORD ptry; /* latest y position of pointer */ static char coordstring[32]; /* coordinate string */ static GR_WINDOW_ID mainwid; /* main window id */ static GR_WINDOW_ID mapwid; /* window id for map */ static GR_GC_ID mapgc; /* GC used for drawing map */ static GR_GC_ID xorgc; /* GC used for rubber banding */ static GR_SIZE COLS, ROWS; /* * Current selection mode */ #define SELECT_NONE 0 #define SELECT_SCALE 1 #define SELECT_MOVE 2 /* * Order of color table (indexed by type of point): * unused * continents * countries * unused * USA states * islands * lakes * rivers */ static GR_COLOR code_colors[] = { BLACK, GREEN, RED, BLACK, BROWN, GREEN, BLUE, BLUE }; static void load(); static void setzoom(); static void checkevent(); static void doexposure(); static void dobuttondown(); static void dobuttonup(); static void doposition(); static void dokeydown(); static void showselection(); static void showcoords(); static void mintostr(); int main(int argc, char **argv) { GR_SCREEN_INFO si; GR_WM_PROPERTIES props; if (GrOpen() < 0) { fprintf(stderr, "Cannot open graphics\n"); exit(1); } GrReqShmCmds(65536); /* Test by Morten Rolland for shm support */ GrGetScreenInfo(&si); #ifdef __ECOS /* 240x320 screen*/ COLS = si.cols - 10; ROWS = si.rows - 40; #else COLS = si.cols - 40; ROWS = si.rows - 80; #endif mainwid = GrNewWindow(GR_ROOT_WINDOW_ID, 0, 0, COLS, ROWS, 0, BLACK, BLACK); /* set title */ props.flags = GR_WM_FLAGS_TITLE | GR_WM_FLAGS_PROPS; props.props = GR_WM_PROPS_BORDER | GR_WM_PROPS_CAPTION; props.title = "NanoX World Map"; GrSetWMProperties(mainwid, &props); mapwidth = COLS - 2; mapheight = ROWS - 2; mapxorig = mapwidth / 2; mapyorig = mapheight / 2; selectxscale = 4; selectyscale = 3; coordx = 0; coordy = ROWS - 1; mapwid = GrNewWindow(mainwid, 1, 1, mapwidth, mapheight, #if 0 1, BLACK, WHITE); #else 1, LTGRAY, BLACK); #endif GrSelectEvents(mainwid, GR_EVENT_MASK_CLOSE_REQ); GrSelectEvents(mapwid, GR_EVENT_MASK_EXPOSURE | GR_EVENT_MASK_BUTTON_DOWN | GR_EVENT_MASK_BUTTON_UP | GR_EVENT_MASK_MOUSE_POSITION | GR_EVENT_MASK_KEY_DOWN); GrMapWindow(mainwid); GrMapWindow(mapwid); mapgc = GrNewGC(); xorgc = GrNewGC(); GrSetGCMode(xorgc, GR_MODE_XOR); Longitude = ITOF(0); Latitude = ITOF(0); setzoom(ITOF(1)); while (1) checkevent(); } static void checkevent() { GR_EVENT event; GrGetNextEvent(&event); switch (event.type) { case GR_EVENT_TYPE_EXPOSURE: doexposure(&event.exposure); break; case GR_EVENT_TYPE_BUTTON_DOWN: dobuttondown(&event.button); break; case GR_EVENT_TYPE_BUTTON_UP: dobuttonup(&event.button); break; case GR_EVENT_TYPE_MOUSE_POSITION: doposition(&event.mouse); break; case GR_EVENT_TYPE_KEY_DOWN: dokeydown(&event.keystroke); break; case GR_EVENT_TYPE_CLOSE_REQ: GrClose(); exit(0); } } static void doexposure(ep) GR_EVENT_EXPOSURE *ep; { if (ep->wid != mapwid) return; /* removed: helps with blink with nanowm*/ /*GrClearWindow(mapwid, GR_FALSE);*/ selectvisible = GR_FALSE; coordvisible = GR_FALSE; load(MAPFILE); showselection(GR_TRUE); showcoords(GR_TRUE); } static void dobuttondown(bp) GR_EVENT_BUTTON *bp; { if (bp->wid != mapwid) return; if (bp->changebuttons & SELECTBUTTON) { showselection(GR_FALSE); selectx = bp->x; selecty = bp->y; selectptrx = bp->x; selectptry = bp->y; selectwidth = 0; selectheight = 0; selectmode = SELECT_SCALE; showselection(GR_TRUE); } if (bp->changebuttons & COORDBUTTON) { showcoords(GR_FALSE); ptrx = bp->x; ptry = bp->y; coordenabled = GR_TRUE; showcoords(GR_TRUE); } } static void dobuttonup(bp) GR_EVENT_BUTTON *bp; { if (bp->wid != mapwid) return; if (bp->changebuttons & COORDBUTTON) { showcoords(GR_FALSE); coordenabled = GR_FALSE; } if (bp->changebuttons & SELECTBUTTON) { showselection(GR_FALSE); if (selectmode == SELECT_NONE) return; selectmode = SELECT_NONE; if (selectwidth <= 0) return; Longitude += FIDIV(FIMUL(viewlong, selectx - mapxorig), mapwidth); Latitude -= FIDIV(FIMUL(viewlat, selecty - mapyorig), mapheight); setzoom(FIDIV(FIMUL(zoom, mapwidth), selectwidth)); GrClearWindow(mapwid, GR_TRUE); } } static void doposition(mp) GR_EVENT_MOUSE *mp; { GR_SIZE temp; if (mp->wid != mapwid) return; if (coordenabled) { showcoords(GR_FALSE); ptrx = mp->x; ptry = mp->y; showcoords(GR_TRUE); } showselection(GR_FALSE); switch (selectmode) { case SELECT_SCALE: selectwidth = ABS(mp->x - selectx) * 2 + 1; selectheight = ABS(mp->y - selecty) * 2 + 1; temp = ((long) selectwidth) * selectyscale / selectxscale; if (selectheight < temp) selectheight = temp; temp = ((long) selectheight) * selectxscale / selectyscale; if (selectwidth < temp) selectwidth = temp; break; case SELECT_MOVE: selectx += (mp->x - selectptrx); selecty += (mp->y - selectptry); break; } selectptrx = mp->x; selectptry = mp->y; showselection(GR_TRUE); } static void dokeydown(kp) GR_EVENT_KEYSTROKE *kp; { if (kp->wid != mapwid) return; if (selectmode != SELECT_NONE) { switch (kp->ch) { case 's': /* scale selection */ selectmode = SELECT_SCALE; break; case 'm': /* move selection */ selectmode = SELECT_MOVE; break; case '\033': /* cancel selection */ showselection(GR_FALSE); selectmode = SELECT_NONE; break; } return; } switch (kp->ch) { case 'q': /* quit */ case 'Q': GrClose(); exit(0); case 't': /* redraw total map */ Longitude = ITOF(0); Latitude = ITOF(0); setzoom(ITOF(1)); GrClearWindow(mapwid, GR_TRUE); } } /* * Draw or erase the current selection if any is defined. * The selection is a rectangle centered on a specified point, and with a * specified width and height. Drawing and erasing the selection are the * same drawing operation because of the XOR operation. */ static void showselection(show) GR_BOOL show; /* TRUE if show the selection */ { if ((show == 0) == (selectvisible == 0)) return; if (selectmode == SELECT_NONE) return; GrRect(mapwid, xorgc, selectx - selectwidth / 2, selecty - selectheight / 2, selectwidth, selectheight); selectvisible = show; } /* * Draw or erase the coordinate string of the current pointer position. * Both of these are the same operation because of the XOR operation. */ static void showcoords(show) GR_BOOL show; /* TRUE if show the coordinates */ { long curlong; long curlat; FLOAT ptrlat; FLOAT ptrlong; if (((show == 0) == (coordvisible == 0)) || !coordenabled) return; if (show) { ptrlat = FIDIV(FIMUL(viewlat, ptry), mapheight - 1); ptrlong = FIDIV(FIMUL(viewlong, ptrx), mapwidth - 1); curlat = FTOI(Latitude + latradius - ptrlat); curlong = FTOI(Longitude - longradius + ptrlong); if (curlong > 180*60) curlong -= 360*60; if (curlong < -180*60) curlong += 360*60; mintostr(coordstring, curlong); strcat(coordstring, " "); mintostr(coordstring + strlen(coordstring), curlat); } GrText(mapwid, xorgc, coordx, coordy, coordstring, -1, GR_TFBOTTOM); coordvisible = show; } /* * Convert minutes to a string of the form "ddd'mm" and store it * into the indicated buffer. */ static void mintostr(buf, minutes) char *buf; long minutes; { if (minutes < 0) { minutes = -minutes; *buf++ = '-'; } sprintf(buf, "%ld'%02ld", (long)(minutes / 60), (long)(minutes % 60)); } #if 0 /* * Convert "ddd'mm" to mins */ static long degtomin(s) char *s; { int deg, minutes; char str[10],*strchr(),*cp; strcpy(str,s); if (cp = strchr(str,'\047')) { *cp = '\0'; minutes = atoi(++cp); } else minutes = 0; if ((deg = atoi(str)) < 0) minutes = -minutes; return(deg * 60 + minutes); } #endif /* * Set the scale factors for the given zoom factor. * The factors 3 and 4 are here to compensate for the screen aspect ratio. */ static void setzoom(newzoom) FLOAT newzoom; { zoom = newzoom; Y_Scale = FIDIV(FIMUL(zoom, mapheight * 3), 180 * 4); X_Scale = FIDIV(FIMUL(zoom, mapwidth), 360); viewlong = FFDIV(WSPAN, zoom); viewlat = FFDIV(HSPAN * 4 / 3, zoom); longradius = FIDIV(viewlong, 2); latradius = FIDIV(viewlat, 2); } /* * Read the database file and draw the world. */ static void load(fn) char *fn; { register DBPOINT *pp; DBPOINT *pend; FLOAT x, y, LonPrv, LatPrv; long oldlong = 0L; GR_COORD xnew, ynew; GR_COORD xold = 0, yold = 0; GR_BOOL is_out; GR_BOOL was_out; GR_BOOL newseg = GR_FALSE; GR_COLOR oldcolor; GR_COLOR newcolor; int n; int fh; DBPOINT p[PCount]; LonPrv = ITOF(0); LatPrv = ITOF(0); oldcolor = -1; is_out = GR_FALSE; was_out = GR_FALSE; fh = open(fn, O_BINARY | O_RDONLY); if (fh < 0) { GrClose(); fprintf(stderr, "Cannot open %s\n", fn); exit(1); } while ((n = read(fh, p, PCount * POINTSize)) > 0) { for (pp = p,pend = p + n/POINTSize; pp < pend; pp++) { DBPOINT_CONVERT(pp); /* do displacement */ x = ITOF(pp->Lon) - Longitude; y = ITOF(pp->Lat) - Latitude; /* wrap around for East-West */ if (x < -HSPAN) x += WSPAN; if (x > HSPAN) x -= WSPAN; if (pp->Code > 5) { newcolor = code_colors[pp->Code / 1000]; if (newcolor != oldcolor) { oldcolor = newcolor; GrSetGCForeground(mapgc, oldcolor); } newseg = GR_TRUE; } if (oldcolor == BLACK) goto go_on; /* ignore points outside magnified area */ if ((x < -longradius || x > longradius || y < -latradius || y > latradius)) { is_out = 1; if (was_out) { /* out to out */ LonPrv = x; LatPrv = y; goto go_on; } /* in to out */ xold = mapxorig + FTOI(FFMUL(LonPrv, X_Scale)) / 60; yold = mapyorig - FTOI(FFMUL(LatPrv, Y_Scale)) / 60; } else { /* out to in */ is_out = 0; if (was_out) { xold = mapxorig + FTOI(FFMUL(LonPrv, X_Scale)) / 60; yold = mapyorig - FTOI(FFMUL(LatPrv, Y_Scale)) / 60; } /* in to in */ } LonPrv = x; LatPrv = y; /* scale points w/in area to interlace screen */ xnew = mapxorig + FTOI(FFMUL(x, X_Scale)) / 60; ynew = mapyorig - FTOI(FFMUL(y, Y_Scale)) / 60; /* if new segment, move to place */ if (newseg || ABS(oldlong - pp->Lon) > 180*60) { xold = xnew; yold = ynew; } oldlong = pp->Lon; GrLine(mapwid, mapgc, xold, yold, xnew, ynew); xold = xnew; yold = ynew; go_on: was_out = is_out; newseg = GR_FALSE; } } close(fh); } /* END CODE */