/* Copyright 1986, 1998 The Open Group Permission to use, copy, modify, distribute, and sell this software and its documentation for any purpose is hereby granted without fee, provided that the above copyright notice appear in all copies and that both that copyright notice and this permission notice appear in supporting documentation. The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software. THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE OPEN GROUP BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. Except as contained in this notice, the name of The Open Group shall not be used in advertising or otherwise to promote the sale, use or other dealings in this Software without prior written authorization from The Open Group. */ #ifdef HAVE_CONFIG_H #include <config.h> #endif #include "Xlibint.h" int XDrawText16( register Display *dpy, Drawable d, GC gc, int x, int y, XTextItem16 *items, int nitems) { register int i; register XTextItem16 *item; int length = 0; register xPolyText16Req *req; LockDisplay(dpy); FlushGC(dpy, gc); GetReq (PolyText16, req); req->drawable = d; req->gc = gc->gid; req->x = x; req->y = y; item = items; for (i=0; i < nitems; i++) { if (item->font) length += 5; /* a 255 byte, plus size of Font id */ if (item->delta) { if (item->delta > 0) { length += SIZEOF(xTextElt) * ((item->delta + 126) / 127); } else { length += SIZEOF(xTextElt) * ((-item->delta + 127) / 128); } } if (item->nchars > 0) { length += SIZEOF(xTextElt) * ((item->nchars + 253) / 254 - 1); if (!item->delta) length += SIZEOF(xTextElt); length += item->nchars << 1; } item++; } req->length += (length + 3)>>2; /* convert to number of 32-bit words */ /* * If the entire request does not fit into the remaining space in the * buffer, flush the buffer first. If the request does fit into the * empty buffer, then we won't have to flush it at the end to keep * the buffer 32-bit aligned. */ if (dpy->bufptr + length > dpy->bufmax) _XFlush (dpy); item = items; for (i=0; i< nitems; i++) { if (item->font) { /* to mark a font shift, write a 255 byte followed by the 4 bytes of font ID, big-end first */ register unsigned char *f; BufAlloc (unsigned char *, f, 5); f[0] = 255; f[1] = (item->font & 0xff000000) >> 24; f[2] = (item->font & 0x00ff0000) >> 16; f[3] = (item->font & 0x0000ff00) >> 8; f[4] = item->font & 0x000000ff; /* update GC shadow */ gc->values.font = item->font; } { int nbytes = SIZEOF(xTextElt); int PartialNChars = item->nchars; int PartialDelta = item->delta; register xTextElt *elt = NULL; int FirstTimeThrough = True; XChar2b *CharacterOffset = item->chars; while((PartialDelta < -128) || (PartialDelta > 127)) { int nb = SIZEOF(xTextElt); BufAlloc (xTextElt *, elt, nb); elt->len = 0; if (PartialDelta > 0 ) { elt->delta = 127; PartialDelta = PartialDelta - 127; } else { elt->delta = -128; PartialDelta = PartialDelta + 128; } } if (PartialDelta) { BufAlloc (xTextElt *, elt, nbytes); elt->len = 0; elt->delta = PartialDelta; } while(PartialNChars > 254) { nbytes = 254 * 2; if (FirstTimeThrough) { FirstTimeThrough = False; if (!item->delta) { nbytes += SIZEOF(xTextElt); BufAlloc (xTextElt *, elt, nbytes); elt->delta = 0; } else { char *DummyChar; BufAlloc(char *, DummyChar, nbytes); #ifdef lint DummyChar = DummyChar; #endif } } else { nbytes += SIZEOF(xTextElt); BufAlloc (xTextElt *, elt, nbytes); elt->delta = 0; } elt->len = 254; #if defined(MUSTCOPY) || defined(MUSTCOPY2B) { register int i; register unsigned char *cp; for (i = 0, cp = ((unsigned char *)elt) + 2; i < 254; i++) { *cp++ = CharacterOffset[i].byte1; *cp++ = CharacterOffset[i].byte2; } } #else memcpy ((char *) (elt + 1), (char *)CharacterOffset, 254 * 2); #endif PartialNChars = PartialNChars - 254; CharacterOffset += 254; } if (PartialNChars) { nbytes = PartialNChars * 2; if (FirstTimeThrough) { FirstTimeThrough = False; if (!item->delta) { nbytes += SIZEOF(xTextElt); BufAlloc (xTextElt *, elt, nbytes); elt->delta = 0; } else { char *DummyChar; BufAlloc(char *, DummyChar, nbytes); #ifdef lint DummyChar = DummyChar; #endif } } else { nbytes += SIZEOF(xTextElt); BufAlloc (xTextElt *, elt, nbytes); elt->delta = 0; } elt->len = PartialNChars; #if defined(MUSTCOPY) || defined(MUSTCOPY2B) { register int i; register unsigned char *cp; for (i = 0, cp = ((unsigned char *)elt) + 2; i < PartialNChars; i++) { *cp++ = CharacterOffset[i].byte1; *cp++ = CharacterOffset[i].byte2; } } #else memcpy ((char *) (elt + 1), (char *)CharacterOffset, PartialNChars * 2); #endif } } item++; } /* Pad request out to a 32-bit boundary */ if (length &= 3) { char *pad; /* * BufAlloc is a macro that uses its last argument more than * once, otherwise I'd write "BufAlloc (char *, pad, 4-length)" */ length = 4 - length; BufAlloc (char *, pad, length); /* * if there are 3 bytes of padding, the first byte MUST be 0 * so the pad bytes aren't mistaken for a final xTextElt */ *pad = 0; } /* * If the buffer pointer is not now pointing to a 32-bit boundary, * we must flush the buffer so that it does point to a 32-bit boundary * at the end of this routine. */ if ((dpy->bufptr - dpy->buffer) & 3) _XFlush (dpy); UnlockDisplay(dpy); SyncHandle(); return 1; }