/* grX11su5.c - * * ********************************************************************* * * Copyright (C) 1985, 1990 Regents of the University of California. * * * Permission to use, copy, modify, and distribute this * * * software and its documentation for any purpose and without * * * fee is hereby granted, provided that the above copyright * * * notice appear in all copies. The University of California * * * makes no representations about the suitability of this * * * software for any purpose. It is provided "as is" without * * * express or implied warranty. Export of this software outside * * * of the United States of America may require an export license. * * ********************************************************************* * * Manipulate the programable cursor on the graphics display. * */ #include #include #include #include "utils/magic.h" #include "utils/styles.h" #include "utils/hash.h" #include "textio/textio.h" #include "utils/geometry.h" #include "graphics/graphics.h" #include "graphics/glyphs.h" #include "windows/windows.h" #include "graphics/graphicsInt.h" #include "grX11Int.h" extern HashTable grX11WindowTable; extern XColor colors[]; /* locals */ Cursor grCursors[MAX_CURSORS]; /* * ---------------------------------------------------------------------------- * GrXDrawGlyph -- * * Draw one glyph on the display. * * Results: * None. * * Side effects: * Draws pixels. * ---------------------------------------------------------------------------- */ void GrX11DrawGlyph (gl, p) GrGlyph *gl; /* A single glyph */ Point *p; /* screen pos of lower left corner */ { Rect bBox; bool anyObscure; LinkedRect *ob; GR_CHECK_LOCK(); bBox.r_ll = *p; bBox.r_xtop = p->p_x + gl->gr_xsize - 1; bBox.r_ytop = p->p_y + gl->gr_ysize - 1; anyObscure = FALSE; for (ob = grCurObscure; ob != NULL; ob = ob->r_next) { if (GEO_TOUCH( &(ob->r_r), &bBox)) { anyObscure = TRUE; break; } } if(grDisplay.depth <= 8) { XSetPlaneMask(grXdpy, grGCGlyph, grPlanes[127]); } XSetFillStyle(grXdpy, grGCGlyph, FillSolid); if ((!anyObscure) && (GEO_SURROUND(&grCurClip, &bBox)) ) { int *pixelp, x, y; /* no clipping, try to go quickly */ pixelp = gl->gr_pixels; for (y = 0; y < gl->gr_ysize; y++) { int x1, y1; y1 = grMagicToX(bBox.r_ybot + y); for (x = 0; x < gl->gr_xsize; x++) { int color; if (*pixelp != 0) { color = GrStyleTable[*pixelp].color; x1 = bBox.r_xbot + x; XSetForeground(grXdpy, grGCGlyph, grPixels[color]); XDrawPoint(grXdpy, grCurrent.window, grGCGlyph, x1, y1); } pixelp++; } } } else { /* do pixel by pixel clipping */ int y, yloc; yloc = bBox.r_ybot; for (y = 0; y < gl->gr_ysize; y++) { int startx, endx; if ( (yloc <= grCurClip.r_ytop) && (yloc >= grCurClip.r_ybot) ) { int laststartx; laststartx = bBox.r_xbot - 1; for (startx = bBox.r_xbot; startx <= bBox.r_xtop; startx = endx + 1) { int *pixelp; startx = MAX(startx, grCurClip.r_xbot); endx = MIN(bBox.r_xtop, grCurClip.r_xtop); if (anyObscure) { for (ob = grCurObscure; ob != NULL; ob = ob->r_next) { if ( (ob->r_r.r_ybot <= yloc) && (ob->r_r.r_ytop >= yloc) ) { if (ob->r_r.r_xbot <= startx) startx = MAX(startx, ob->r_r.r_xtop + 1); else if (ob->r_r.r_xbot <= endx) endx = MIN(endx, ob->r_r.r_xbot - 1); } } } /* stop if we aren't advancing */ if (startx == laststartx) break; laststartx = startx; if (startx > endx) continue; /* draw a section of this scan line */ pixelp = &( gl->gr_pixels[y*gl->gr_xsize + (startx - bBox.r_xbot)]); for ( ; startx <= endx; startx++) { int color; if (*pixelp != 0) { color = GrStyleTable[*pixelp].color; XSetForeground(grXdpy, grGCGlyph, grPixels[color]); XDrawPoint(grXdpy, grCurrent.window, grGCGlyph, startx, grMagicToX(yloc)); } pixelp++; } startx = endx + 1; } } yloc++; } } } /* * ---------------------------------------------------------------------------- * grxDefineCursor: * * Define a new set of cursors. * * Results: * None. * * Side effects: * The given matrix is stored in the graphics display, and it can be * used as the cursor by calling GrSetCursor. * ---------------------------------------------------------------------------- */ void grx11DefineCursor(glyphs) GrGlyphs *glyphs; { int glyphnum; Rect oldClip; XColor fgcolor, bgcolor; Pixmap source, mask; if (glyphs->gr_num <= 0) return; if (glyphs->gr_num > MAX_CURSORS) { TxError("X only has room for %d cursors\n", MAX_CURSORS); return; } /* expand clipping amount for off-screen access on the X */ GrLock(GR_LOCK_SCREEN, FALSE); oldClip = grCurClip; grCurClip = GrScreenRect; grCurClip.r_ytop += 16; /* enter the glyphs */ for (glyphnum = 0; glyphnum < glyphs->gr_num; glyphnum++) { int i, *p, fgstyle; GrGlyph *g; int x, y; unsigned char curs[32]; unsigned char mbits[32]; g = glyphs->gr_glyph[glyphnum]; if ((g->gr_xsize != 16) || (g->gr_ysize != 16)) { TxError("Cursors for the X must be 16 X 16 pixels.\n"); return; } /* Pick off the non-transparent color and find the */ /* corresponding display color. If there are two */ /* colors other than background, we treat them as */ /* foreground and background, without regard to order. */ p = &(g->gr_pixels[0]); fgstyle = STYLE_TRANSPARENT; for (x = 0; x < 256; x++) { if (*p != STYLE_TRANSPARENT) { fgstyle = *p; fgcolor.pixel = grPixels[GrStyleTable[*p].color]; XQueryColor(grXdpy, grXcmap, &fgcolor); break; } p++; } if (x == 256) { fgcolor.pixel = BlackPixel(grXdpy, grXscrn); fgcolor.red=0; fgcolor.green=0; fgcolor.blue=0; fgcolor.flags=DoRed|DoGreen|DoBlue; } for (; x < 256; x++) { if ((*p != STYLE_TRANSPARENT) && (*p != fgstyle)) { bgcolor.pixel = grPixels[GrStyleTable[*p].color]; XQueryColor(grXdpy, grXcmap, &bgcolor); break; } p++; } if (x == 256) { bgcolor.pixel = WhitePixel(grXdpy, grXscrn); bgcolor.red=65535; bgcolor.green=65535; bgcolor.blue=65535; bgcolor.flags=DoRed|DoGreen|DoBlue; } /* Perform transposition on the glyph matrix since X displays * the least significant bit on the left hand side. */ p = &(g->gr_pixels[0]); for (y = 0; y < 32; y++) { i = (y & 1) ? (32 - y) : (30 - y); curs[i] = mbits[i] = 0; for (x = 0; x < 8; x++) { if (*p == fgstyle) curs[i] |= (1 << x); if (*p != STYLE_TRANSPARENT) mbits[i] |= (1 << x); p++; } } source = XCreateBitmapFromData(grXdpy, XDefaultRootWindow(grXdpy), (const char *)curs, 16, 16); mask = XCreateBitmapFromData(grXdpy, XDefaultRootWindow(grXdpy), (const char *)mbits, 16, 16); grCursors[glyphnum] = XCreatePixmapCursor(grXdpy, source, mask, &fgcolor, &bgcolor, g->gr_origin.p_x, (15 - g->gr_origin.p_y)); } /* Restore clipping */ grCurClip = oldClip; GrUnlock(GR_LOCK_SCREEN); } /* * ---------------------------------------------------------------------------- * GrXSetCursor: * * Make the cursor be a new pattern, as defined in the display styles file. * * Results: * None. * * Side effects: * When the cursor is turned back on it will take on the new pattern. * ---------------------------------------------------------------------------- */ void GrX11SetCursor(cursorNum) int cursorNum; /* The cursor number as defined in the display * styles file. */ { HashEntry *entry; HashSearch hs; if (cursorNum >= MAX_CURSORS) { TxError("No such cursor!\n"); return; } grCurrent.cursor = grCursors[cursorNum]; HashStartSearch(&hs); while (entry = HashNext(&grX11WindowTable,&hs)) { if (HashGetValue(entry)) XDefineCursor(grXdpy,(Window)entry->h_key.h_ptr,grCurrent.cursor); } }