/* $Xorg: imDefIc.c,v 1.5 2000/08/17 19:45:11 cpqbld Exp $ */ /****************************************************************** Copyright 1991, 1992 by Sun Microsystems, Inc. Copyright 1992, 1993, 1994 by FUJITSU LIMITED 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, and that the name of Sun Microsystems, Inc. and FUJITSU LIMITED not be used in advertising or publicity pertaining to distribution of the software without specific, written prior permission. Sun Microsystems, Inc. and FUJITSU LIMITED makes no representations about the suitability of this software for any purpose. It is provided "as is" without express or implied warranty. Sun Microsystems Inc. AND FUJITSU LIMITED DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE, INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS, IN NO EVENT SHALL Sun Microsystems, Inc. AND FUJITSU LIMITED BE LIABLE FOR ANY SPECIAL, INDIRECT OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. Author: Hideki Hiura (hhiura@Sun.COM) Sun Microsystems, Inc. Takashi Fujiwara FUJITSU LIMITED fujiwara@a80.tech.yk.fujitsu.co.jp ******************************************************************/ /* $XFree86: xc/lib/X11/imDefIc.c,v 3.8 2001/01/17 19:41:51 dawes Exp $ */ #include "Xlibint.h" #include "Xlcint.h" #include "Ximint.h" /* EXTERNS */ /* imRm.c */ extern Bool _XimCheckCreateICValues(); Private Bool #if NeedFunctionPrototypes _XimCreateICCheck( Xim im, INT16 len, XPointer data, XPointer arg) #else _XimCreateICCheck(im, len, data, arg) Xim im; INT16 len; XPointer data; XPointer arg; #endif { CARD16 *buf_s = (CARD16 *)((CARD8 *)data + XIM_HEADER_SIZE); CARD8 major_opcode = *((CARD8 *)data); CARD8 minor_opcode = *((CARD8 *)data + 1); XIMID imid = buf_s[0]; if ((major_opcode == XIM_CREATE_IC_REPLY) && (minor_opcode == 0) && (imid == im->private.proto.imid)) return True; if ((major_opcode == XIM_ERROR) && (minor_opcode == 0) && (buf_s[2] & XIM_IMID_VALID) && (imid == im->private.proto.imid)) return True; return False; } #ifdef XIM_CONNECTABLE Public Bool _XimReCreateIC(ic) Xic ic; { Xim im = (Xim)ic->core.im; Xic save_ic; XIMResourceList res; unsigned int num; XIMStyle input_style = ic->core.input_style; XimDefICValues ic_values; INT16 len; CARD16 *buf_s; char *tmp; CARD32 tmp_buf32[BUFSIZE/4]; char *tmp_buf = (char *)tmp_buf32; char *buf; int buf_size; char *data; int data_len; int ret_len; int total; int idx; CARD32 reply32[BUFSIZE/4]; char *reply = (char *)reply32; XPointer preply; int ret_code; if (!(save_ic = (Xic)Xmalloc(sizeof(XicRec)))) return False; memcpy((char *)save_ic, (char *)ic, sizeof(XicRec)); ic->core.filter_events = im->private.proto.forward_event_mask; ic->private.proto.forward_event_mask = im->private.proto.forward_event_mask; ic->private.proto.synchronous_event_mask = im->private.proto.synchronous_event_mask; num = im->core.ic_num_resources; buf_size = sizeof(XIMResource) * num; if (!(res = (XIMResourceList)Xmalloc(buf_size))) goto ErrorOnReCreateIC; (void)memcpy((char *)res, (char *)im->core.ic_resources, buf_size); ic->private.proto.ic_resources = res; ic->private.proto.ic_num_resources = num; num = im->private.proto.ic_num_inner_resources; buf_size = sizeof(XIMResource) * num; if (!(res = (XIMResourceList)Xmalloc(buf_size))) goto ErrorOnReCreateIC; (void)memcpy((char *)res, (char *)im->private.proto.ic_inner_resources, buf_size); ic->private.proto.ic_inner_resources = res; ic->private.proto.ic_num_inner_resources = num; _XimSetICMode(ic->private.proto.ic_resources, ic->private.proto.ic_num_resources, input_style); _XimSetICMode(ic->private.proto.ic_inner_resources, ic->private.proto.ic_num_inner_resources, input_style); _XimGetCurrentICValues(ic, &ic_values); buf = tmp_buf; buf_size = XIM_HEADER_SIZE + sizeof(CARD16) + sizeof(INT16); data_len = BUFSIZE - buf_size; total = 0; idx = 0; for (;;) { data = &buf[buf_size]; if (!_XimEncodeSavedICATTRIBUTE(ic, ic->private.proto.ic_resources, ic->private.proto.ic_num_resources, &idx, data, data_len, &ret_len, (XPointer)&ic_values, XIM_CREATEIC)) { if (buf != tmp_buf) Xfree(buf); goto ErrorOnReCreateIC; } total += ret_len; if (idx == -1) { break; } buf_size += ret_len; if (buf == tmp_buf) { if (!(tmp = (char *)Xmalloc(buf_size + data_len))) { goto ErrorOnReCreateIC; } memcpy(tmp, buf, buf_size); buf = tmp; } else { if (!(tmp = (char *)Xrealloc(buf, (buf_size + data_len)))) { Xfree(buf); goto ErrorOnReCreateIC; } buf = tmp; } } buf_s = (CARD16 *)&buf[XIM_HEADER_SIZE]; buf_s[0] = im->private.proto.imid; buf_s[1] = (INT16)total; len = (INT16)(sizeof(CARD16) + sizeof(INT16) + total); _XimSetHeader((XPointer)buf, XIM_CREATE_IC, 0, &len); if (!(_XimWrite(im, len, (XPointer)buf))) { if (buf != tmp_buf) Xfree(buf); goto ErrorOnReCreateIC; } _XimFlush(im); if (buf != tmp_buf) Xfree(buf); ic->private.proto.waitCallback = True; buf_size = BUFSIZE; ret_code = _XimRead(im, &len, (XPointer)reply, buf_size, _XimCreateICCheck, 0); if (ret_code == XIM_TRUE) { preply = reply; } else if (ret_code == XIM_OVERFLOW) { if (len <= 0) { preply = reply; } else { buf_size = (int)len; preply = (XPointer)Xmalloc(buf_size); ret_code = _XimRead(im, &len, preply, buf_size, _XimCreateICCheck, 0); if (ret_code != XIM_TRUE) { Xfree(preply); ic->private.proto.waitCallback = False; goto ErrorOnReCreateIC; } } } else { ic->private.proto.waitCallback = False; goto ErrorOnReCreateIC; } ic->private.proto.waitCallback = False; buf_s = (CARD16 *)((char *)preply + XIM_HEADER_SIZE); if (*((CARD8 *)preply) == XIM_ERROR) { _XimProcError(im, 0, (XPointer)&buf_s[3]); if (reply != preply) Xfree(preply); goto ErrorOnReCreateIC; } ic->private.proto.icid = buf_s[1]; /* icid */ if (reply != preply) Xfree(preply); _XimRegisterFilter(ic); MARK_IC_CONNECTED(ic); if (save_ic->private.proto.ic_resources) Xfree(save_ic->private.proto.ic_resources); if (save_ic->private.proto.ic_inner_resources) Xfree(save_ic->private.proto.ic_inner_resources); Xfree(save_ic); return True; ErrorOnReCreateIC: memcpy((char *)ic, (char *)save_ic, sizeof(XicRec)); Xfree(save_ic); return False; } Private char * _XimDelayModeGetICValues(ic, arg) Xic ic; XIMArg *arg; { XimDefICValues ic_values; _XimGetCurrentICValues(ic, &ic_values); return _XimGetICValueData(ic, (XPointer)&ic_values, ic->private.proto.ic_resources, ic->private.proto.ic_num_resources, arg, XIM_GETICVALUES); } #endif /* XIM_CONNECTABLE */ Private Bool #if NeedFunctionPrototypes _XimGetICValuesCheck( Xim im, INT16 len, XPointer data, XPointer arg) #else _XimGetICValuesCheck(im, len, data, arg) Xim im; INT16 len; XPointer data; XPointer arg; #endif { Xic ic = (Xic)arg; CARD16 *buf_s = (CARD16 *)((CARD8 *)data + XIM_HEADER_SIZE); CARD8 major_opcode = *((CARD8 *)data); CARD8 minor_opcode = *((CARD8 *)data + 1); XIMID imid = buf_s[0]; XICID icid = buf_s[1]; if ((major_opcode == XIM_GET_IC_VALUES_REPLY) && (minor_opcode == 0) && (imid == im->private.proto.imid) && (icid == ic->private.proto.icid)) return True; if ((major_opcode == XIM_ERROR) && (minor_opcode == 0) && (buf_s[2] & XIM_IMID_VALID) && (imid == im->private.proto.imid) && (buf_s[2] & XIM_ICID_VALID) && (icid == ic->private.proto.icid)) return True; return False; } Private char * _XimProtoGetICValues(xic, arg) XIC xic ; XIMArg *arg ; { Xic ic = (Xic)xic; Xim im = (Xim)ic->core.im; register XIMArg *p; register XIMArg *pp; register int n; CARD8 *buf; CARD16 *buf_s; INT16 len; CARD32 reply32[BUFSIZE/4]; char *reply = (char *)reply32; XPointer preply = NULL; int buf_size; int ret_code; char *makeid_name; char *decode_name; CARD16 *data = NULL; INT16 data_len = 0; #ifndef XIM_CONNECTABLE if (!IS_IC_CONNECTED(ic)) return arg->name; #else if (!IS_IC_CONNECTED(ic)) { if (IS_CONNECTABLE(im)) { if (_XimConnectServer(im)) { if (!_XimReCreateIC(ic)) { _XimDelayModeSetAttr(im); return _XimDelayModeGetICValues(ic, arg); } } else { return _XimDelayModeGetICValues(ic, arg); } } else { return arg->name; } } #endif /* XIM_CONNECTABLE */ for (n = 0, p = arg; p && p->name; p++) { n++; if ((strcmp(p->name, XNPreeditAttributes) == 0) || (strcmp(p->name, XNStatusAttributes) == 0)) { n++; for (pp = (XIMArg *)p->value; pp && pp->name; pp++) n++; } } if (!n) return (char *)NULL; buf_size = sizeof(CARD16) * n; buf_size += XIM_HEADER_SIZE + sizeof(CARD16) + sizeof(CARD16) + sizeof(INT16) + XIM_PAD(2 + buf_size); if (!(buf = (CARD8 *)Xmalloc(buf_size))) return arg->name; buf_s = (CARD16 *)&buf[XIM_HEADER_SIZE]; makeid_name = _XimMakeICAttrIDList(ic, ic->private.proto.ic_resources, ic->private.proto.ic_num_resources, arg, &buf_s[3], &len, XIM_GETICVALUES); if (len > 0) { buf_s[0] = im->private.proto.imid; /* imid */ buf_s[1] = ic->private.proto.icid; /* icid */ buf_s[2] = len; /* length of ic-attr-id */ len += sizeof(INT16); /* sizeof length of attr */ XIM_SET_PAD(&buf_s[2], len); /* pad */ len += sizeof(CARD16) /* sizeof imid */ + sizeof(CARD16); /* sizeof icid */ _XimSetHeader((XPointer)buf, XIM_GET_IC_VALUES, 0, &len); if (!(_XimWrite(im, len, (XPointer)buf))) { Xfree(buf); return arg->name; } _XimFlush(im); Xfree(buf); buf_size = BUFSIZE; ret_code = _XimRead(im, &len, (XPointer)reply, buf_size, _XimGetICValuesCheck, (XPointer)ic); if (ret_code == XIM_TRUE) { preply = reply; } else if (ret_code == XIM_OVERFLOW) { if (len <= 0) { preply = reply; } else { buf_size = (int)len; preply = (XPointer)Xmalloc(len); ret_code = _XimRead(im, &len, preply, buf_size, _XimGetICValuesCheck, (XPointer)ic); if (ret_code != XIM_TRUE) { if (preply != reply) Xfree(preply); return arg->name; } } } else { return arg->name; } buf_s = (CARD16 *)((char *)preply + XIM_HEADER_SIZE); if (*((CARD8 *)preply) == XIM_ERROR) { _XimProcError(im, 0, (XPointer)&buf_s[3]); if (reply != preply) Xfree(preply); return arg->name; } data = &buf_s[4]; data_len = buf_s[2]; } else if (len < 0) { return arg->name; } decode_name = _XimDecodeICATTRIBUTE(ic, ic->private.proto.ic_resources, ic->private.proto.ic_num_resources, data, data_len, arg, XIM_GETICVALUES); if (reply != preply) Xfree(preply); if (decode_name) return decode_name; else return makeid_name; } #ifdef XIM_CONNECTABLE Private Bool _XimCheckNestQuarkList(quark_list, num_quark, quark, separator) XrmQuark *quark_list; int num_quark; XrmQuark quark; XrmQuark separator; { register int i; for (i = 0; i < num_quark; i++) { if (quark_list[i] == separator) { break; } if (quark_list[i] == quark) { return True; } } return False; } Private Bool _XimCheckNestedQuarkList(quark_list, idx, num_quark, arg, separator) XrmQuark **quark_list; int idx; int *num_quark; XIMArg *arg; XrmQuark separator; { XrmQuark *q_list = *quark_list; int n_quark = *num_quark; register XIMArg *p; XrmQuark quark; XrmQuark *tmp; register int i; for (p = arg; p && p->name; p++) { quark = XrmStringToQuark(p->name); if (_XimCheckNestQuarkList(&q_list[idx], n_quark - idx, quark, separator)) { continue; } if (!(tmp = (XrmQuark *)Xmalloc((sizeof(XrmQuark) * (n_quark + 1))))) { *quark_list = q_list; *num_quark = n_quark; return False; } n_quark++; for (i = 0; i < idx; i++) { tmp[i] = q_list[i]; } tmp[i] = quark; for (i = idx + 1; i < n_quark; i++) { tmp[i] = q_list[i - 1]; } q_list = tmp; } *quark_list = q_list; *num_quark = n_quark; return True; } Private Bool _XimCheckICQuarkList(quark_list, num_quark, quark, idx) XrmQuark *quark_list; int num_quark; XrmQuark quark; int *idx; { register int i; for (i = 0; i < num_quark; i++) { if (quark_list[i] == quark) { *idx = i; return True; } } return False; } Private Bool _XimSaveICValues(ic, arg) Xic ic; XIMArg *arg; { register XIMArg *p; register int n; XrmQuark *quark_list; XrmQuark *tmp; XrmQuark quark; int num_quark; XrmQuark pre_quark; XrmQuark sts_quark; XrmQuark separator; int idx; pre_quark = XrmStringToQuark(XNPreeditAttributes); sts_quark = XrmStringToQuark(XNStatusAttributes); separator = XrmStringToQuark(XNSeparatorofNestedList); if (quark_list = ic->private.proto.saved_icvalues) { num_quark = ic->private.proto.num_saved_icvalues; for (p = arg; p && p->name; p++) { quark = XrmStringToQuark(p->name); if ((quark == pre_quark) || (quark == sts_quark)) { if (!_XimCheckICQuarkList(quark_list, num_quark, quark, &idx)) { register XIMArg *pp; int nn; XrmQuark *q_list; for (pp = (XIMArg *)p->value, nn = 0; pp && pp->name; pp++, nn++); if (!(tmp = (XrmQuark *)Xrealloc(quark_list, (sizeof(XrmQuark) * (num_quark + nn + 2))))) { ic->private.proto.saved_icvalues = quark_list; ic->private.proto.num_saved_icvalues = num_quark; return False; } quark_list = tmp; q_list = &quark_list[num_quark]; num_quark += nn + 2; *q_list++ = quark; for (pp = (XIMArg *)p->value; pp && pp->name; pp++, quark_list++) { *q_list = XrmStringToQuark(pp->name); } *q_list = separator; } else { if (!_XimCheckNestedQuarkList(&quark_list, idx + 1, &num_quark, (XIMArg *)p->value, separator)) { ic->private.proto.saved_icvalues = quark_list; ic->private.proto.num_saved_icvalues = num_quark; return False; } } } else { if (_XimCheckICQuarkList(quark_list, num_quark, quark, &idx)) { continue; } if (!(tmp = (XrmQuark *)Xrealloc(quark_list, (sizeof(XrmQuark) * (num_quark + 1))))) { ic->private.proto.saved_icvalues = quark_list; ic->private.proto.num_saved_icvalues = num_quark; return False; } quark_list = tmp; quark_list[num_quark] = quark; num_quark++; } } ic->private.proto.saved_icvalues = quark_list; ic->private.proto.num_saved_icvalues = num_quark; return True; } for (p = arg, n = 0; p && p->name; p++, n++) { if ((!strcmp(p->name, XNPreeditAttributes)) || (!strcmp(p->name, XNStatusAttributes))) { register XIMArg *pp; int nn; for (pp = (XIMArg *)p->value, nn = 0; pp && pp->name; pp++, nn++); n += nn + 1; } } if (!(quark_list = (XrmQuark *)Xmalloc(sizeof(XrmQuark) * n))) { return False; } ic->private.proto.saved_icvalues = quark_list; ic->private.proto.num_saved_icvalues = n; for (p = arg; p && p->name; p++, quark_list++) { *quark_list = XrmStringToQuark(p->name); if ((*quark_list == pre_quark) || (*quark_list == sts_quark)) { register XIMArg *pp; quark_list++; for (pp = (XIMArg *)p->value; pp && pp->name; pp++, quark_list++) { *quark_list = XrmStringToQuark(pp->name); } *quark_list = separator; } } return True; } Private char * _XimDelayModeSetICValues(ic, arg) Xic ic; XIMArg *arg; { XimDefICValues ic_values; char *name; _XimGetCurrentICValues(ic, &ic_values); name = _XimSetICValueData(ic, (XPointer)&ic_values, ic->private.proto.ic_resources, ic->private.proto.ic_num_resources, arg, XIM_SETICVALUES, False); _XimSetCurrentICValues(ic, &ic_values); return name; } #endif /* XIM_CONNECTABLE */ Private Bool #if NeedFunctionPrototypes _XimSetICValuesCheck( Xim im, INT16 len, XPointer data, XPointer arg) #else _XimSetICValuesCheck(im, len, data, arg) Xim im; INT16 len; XPointer data; XPointer arg; #endif { Xic ic = (Xic)arg; CARD16 *buf_s = (CARD16 *)((CARD8 *)data + XIM_HEADER_SIZE); CARD8 major_opcode = *((CARD8 *)data); CARD8 minor_opcode = *((CARD8 *)data + 1); XIMID imid = buf_s[0]; XICID icid = buf_s[1]; if ((major_opcode == XIM_SET_IC_VALUES_REPLY) && (minor_opcode == 0) && (imid == im->private.proto.imid) && (icid == ic->private.proto.icid)) return True; if ((major_opcode == XIM_ERROR) && (minor_opcode == 0) && (buf_s[2] & XIM_IMID_VALID) && (imid == im->private.proto.imid) && (buf_s[2] & XIM_ICID_VALID) && (icid == ic->private.proto.icid)) return True; return False; } Private char * _XimProtoSetICValues(xic, arg) XIC xic; XIMArg *arg; { Xic ic = (Xic)xic; Xim im = (Xim)ic->core.im; XimDefICValues ic_values; INT16 len; CARD16 *buf_s; char *tmp; CARD32 tmp_buf32[BUFSIZE/4]; char *tmp_buf = (char *)tmp_buf32; char *buf; int buf_size; char *data; int data_len; int ret_len; int total; XIMArg *arg_ret; CARD32 reply32[BUFSIZE/4]; char *reply = (char *)reply32; XPointer preply = NULL; int ret_code; BITMASK32 flag = 0L; char *name; char *tmp_name = (arg) ? arg->name : NULL; #ifndef XIM_CONNECTABLE if (!IS_IC_CONNECTED(ic)) return tmp_name; #else if (!_XimSaveICValues(ic, arg)) return NULL; if (!IS_IC_CONNECTED(ic)) { if (IS_CONNECTABLE(im)) { if (_XimConnectServer(im)) { if (!_XimReCreateIC(ic)) { _XimDelayModeSetAttr(im); return _XimDelayModeSetICValues(ic, arg); } } else { return _XimDelayModeSetICValues(ic, arg); } } else { return tmp_name; } } #endif /* XIM_CONNECTABLE */ _XimGetCurrentICValues(ic, &ic_values); buf = tmp_buf; buf_size = XIM_HEADER_SIZE + sizeof(CARD16) + sizeof(CARD16) + sizeof(INT16) + sizeof(CARD16); data_len = BUFSIZE - buf_size; total = 0; arg_ret = arg; for (;;) { data = &buf[buf_size]; if ((name = _XimEncodeICATTRIBUTE(ic, ic->private.proto.ic_resources, ic->private.proto.ic_num_resources, arg, &arg_ret, data, data_len, &ret_len, (XPointer)&ic_values, &flag, XIM_SETICVALUES))) { break; } total += ret_len; if (!(arg = arg_ret)) { break; } buf_size += ret_len; if (buf == tmp_buf) { if (!(tmp = (char *)Xmalloc(buf_size + data_len))) { return tmp_name; } memcpy(tmp, buf, buf_size); buf = tmp; } else { if (!(tmp = (char *)Xrealloc(buf, (buf_size + data_len)))) { Xfree(buf); return tmp_name; } buf = tmp; } } _XimSetCurrentICValues(ic, &ic_values); if (!total) { return tmp_name; } buf_s = (CARD16 *)&buf[XIM_HEADER_SIZE]; #ifdef EXT_MOVE if (_XimExtenMove(im, ic, flag, &buf_s[4], (INT16)total)) return name; #endif buf_s[0] = im->private.proto.imid; buf_s[1] = ic->private.proto.icid; buf_s[2] = (INT16)total; buf_s[3] = 0; len = (INT16)(sizeof(CARD16) + sizeof(CARD16) + sizeof(INT16) + sizeof(CARD16) + total); _XimSetHeader((XPointer)buf, XIM_SET_IC_VALUES, 0, &len); if (!(_XimWrite(im, len, (XPointer)buf))) { if (buf != tmp_buf) Xfree(buf); return tmp_name; } _XimFlush(im); if (buf != tmp_buf) Xfree(buf); ic->private.proto.waitCallback = True; buf_size = BUFSIZE; ret_code = _XimRead(im, &len, (XPointer)reply, buf_size, _XimSetICValuesCheck, (XPointer)ic); if (ret_code == XIM_TRUE) { preply = reply; } else if (ret_code == XIM_OVERFLOW) { buf_size = (int)len; preply = (XPointer)Xmalloc(buf_size); ret_code = _XimRead(im, &len, preply, buf_size, _XimSetICValuesCheck, (XPointer)ic); if (ret_code != XIM_TRUE) { Xfree(preply); ic->private.proto.waitCallback = False; return tmp_name; } } else { ic->private.proto.waitCallback = False; return tmp_name; } ic->private.proto.waitCallback = False; buf_s = (CARD16 *)((char *)preply + XIM_HEADER_SIZE); if (*((CARD8 *)preply) == XIM_ERROR) { _XimProcError(im, 0, (XPointer)&buf_s[3]); if (reply != preply) Xfree(preply); return tmp_name; } if (reply != preply) Xfree(preply); return name; } Private Bool #if NeedFunctionPrototypes _XimDestroyICCheck( Xim im, INT16 len, XPointer data, XPointer arg) #else _XimDestroyICCheck(im, len, data, arg) Xim im; INT16 len; XPointer data; XPointer arg; #endif { Xic ic = (Xic)arg; CARD16 *buf_s = (CARD16 *)((CARD8 *)data + XIM_HEADER_SIZE); CARD8 major_opcode = *((CARD8 *)data); CARD8 minor_opcode = *((CARD8 *)data + 1); XIMID imid = buf_s[0]; XICID icid = buf_s[1]; Bool ret = False; if ((major_opcode == XIM_DESTROY_IC_REPLY) && (minor_opcode == 0) && (imid == im->private.proto.imid) && (icid == ic->private.proto.icid)) ret = True; if ((major_opcode == XIM_ERROR) && (minor_opcode == 0) && (buf_s[2] & XIM_IMID_VALID) && (imid == im->private.proto.imid) && (buf_s[2] & XIM_ICID_VALID) && (icid == ic->private.proto.icid)) ret = False; return ret; } Private void _XimProtoICFree(ic) Xic ic; { #ifdef XIM_CONNECTABLE Xim im = (Xim)ic->core.im; #endif if (ic->private.proto.preedit_font) { Xfree(ic->private.proto.preedit_font); ic->private.proto.preedit_font = NULL; } if (ic->private.proto.status_font) { Xfree(ic->private.proto.status_font); ic->private.proto.status_font = NULL; } if (ic->private.proto.commit_info) { _XimFreeCommitInfo(ic); ic->private.proto.commit_info = NULL; } if (ic->private.proto.ic_inner_resources) { Xfree(ic->private.proto.ic_inner_resources); ic->private.proto.ic_inner_resources = NULL; } #ifdef XIM_CONNECTABLE if (IS_SERVER_CONNECTED(im) && IS_RECONNECTABLE(im)) { return; } #endif /* XIM_CONNECTABLE */ if (ic->private.proto.saved_icvalues) { Xfree(ic->private.proto.saved_icvalues); ic->private.proto.saved_icvalues = NULL; } if (ic->private.proto.ic_resources) { Xfree(ic->private.proto.ic_resources); ic->private.proto.ic_resources = NULL; } if (ic->core.hotkey) { Xfree(ic->core.hotkey); ic->core.hotkey = NULL; } return; } Private void _XimProtoDestroyIC(xic) XIC xic; { Xic ic = (Xic)xic; Xim im = (Xim)ic->core.im; CARD32 buf32[BUFSIZE/4]; CARD8 *buf = (CARD8 *)buf32; CARD16 *buf_s = (CARD16 *)&buf[XIM_HEADER_SIZE]; INT16 len; CARD32 reply32[BUFSIZE/4]; char *reply = (char *)reply32; XPointer preply; int buf_size; int ret_code; if (IS_SERVER_CONNECTED(im)) { buf_s[0] = im->private.proto.imid; /* imid */ buf_s[1] = ic->private.proto.icid; /* icid */ len = sizeof(CARD16) /* sizeof imid */ + sizeof(CARD16); /* sizeof icid */ _XimSetHeader((XPointer)buf, XIM_DESTROY_IC, 0, &len); (void)_XimWrite(im, len, (XPointer)buf); _XimFlush(im); buf_size = BUFSIZE; ret_code = _XimRead(im, &len, (XPointer)reply, buf_size, _XimDestroyICCheck, (XPointer)ic); if (ret_code == XIM_OVERFLOW) { buf_size = len; preply = (XPointer)Xmalloc(buf_size); (void)_XimRead(im, &len, preply, buf_size, _XimDestroyICCheck, (XPointer)ic); Xfree(preply); } } UNMARK_IC_CONNECTED(ic); _XimUnregisterFilter(ic); _XimProtoICFree(ic); return; } Private void _XimProtoSetFocus(xic) XIC xic; { Xic ic = (Xic)xic; Xim im = (Xim)ic->core.im; CARD32 buf32[BUFSIZE/4]; CARD8 *buf = (CARD8 *)buf32; CARD16 *buf_s = (CARD16 *)&buf[XIM_HEADER_SIZE]; INT16 len; #ifndef XIM_CONNECTABLE if (!IS_IC_CONNECTED(ic)) return; #else if (!IS_IC_CONNECTED(ic)) { if (IS_CONNECTABLE(im)) { if (_XimConnectServer(im)) { if (!_XimReCreateIC(ic)) { _XimDelayModeSetAttr(im); return; } } else { return; } } else { return; } } #endif /* XIM_CONNECTABLE */ buf_s[0] = im->private.proto.imid; /* imid */ buf_s[1] = ic->private.proto.icid; /* icid */ len = sizeof(CARD16) /* sizeof imid */ + sizeof(CARD16); /* sizeof icid */ _XimSetHeader((XPointer)buf, XIM_SET_IC_FOCUS, 0, &len); (void)_XimWrite(im, len, (XPointer)buf); _XimFlush(im); _XimRegisterFilter(ic); return; } Private void _XimProtoUnsetFocus(xic) XIC xic; { Xic ic = (Xic)xic; Xim im = (Xim)ic->core.im; CARD32 buf32[BUFSIZE/4]; CARD8 *buf = (CARD8 *)buf32; CARD16 *buf_s = (CARD16 *)&buf[XIM_HEADER_SIZE]; INT16 len; #ifndef XIM_CONNECTABLE if (!IS_IC_CONNECTED(ic)) return; #else if (!IS_IC_CONNECTED(ic)) { if (IS_CONNECTABLE(im)) { if (_XimConnectServer(im)) { if (!_XimReCreateIC(ic)) { _XimDelayModeSetAttr(im); return; } } else { return; } } else { return; } } #endif /* XIM_CONNECTABLE */ buf_s[0] = im->private.proto.imid; /* imid */ buf_s[1] = ic->private.proto.icid; /* icid */ len = sizeof(CARD16) /* sizeof imid */ + sizeof(CARD16); /* sizeof icid */ _XimSetHeader((XPointer)buf, XIM_UNSET_IC_FOCUS, 0, &len); (void)_XimWrite(im, len, (XPointer)buf); _XimFlush(im); _XimUnregisterFilter(ic); return; } Private Bool #if NeedFunctionPrototypes _XimResetICCheck( Xim im, INT16 len, XPointer data, XPointer arg) #else _XimResetICCheck(im, len, data, arg) Xim im; INT16 len; XPointer data; XPointer arg; #endif { Xic ic = (Xic)arg; CARD16 *buf_s = (CARD16 *)((CARD8 *)data + XIM_HEADER_SIZE); CARD8 major_opcode = *((CARD8 *)data); CARD8 minor_opcode = *((CARD8 *)data + 1); XIMID imid = buf_s[0]; XICID icid = buf_s[1]; if ((major_opcode == XIM_RESET_IC_REPLY) && (minor_opcode == 0) && (imid == im->private.proto.imid) && (icid == ic->private.proto.icid)) return True; if ((major_opcode == XIM_ERROR) && (minor_opcode == 0) && (buf_s[2] & XIM_IMID_VALID) && (imid == im->private.proto.imid) && (buf_s[2] & XIM_ICID_VALID) && (icid == ic->private.proto.icid)) return True; return False; } Private char * _XimProtoReset(xic, retfunc) XIC xic; char * (*retfunc) (Xim im, Xic ic, XPointer buf); { Xic ic = (Xic)xic; Xim im = (Xim)ic->core.im; CARD32 buf32[BUFSIZE/4]; CARD8 *buf = (CARD8 *)buf32; CARD16 *buf_s = (CARD16 *)&buf[XIM_HEADER_SIZE]; INT16 len; CARD32 reply32[BUFSIZE/4]; char *reply = (char *)reply32; XPointer preply; int buf_size; int ret_code; char *commit; if (!IS_IC_CONNECTED(ic)) return (char *)NULL; buf_s[0] = im->private.proto.imid; /* imid */ buf_s[1] = ic->private.proto.icid; /* icid */ len = sizeof(CARD16) /* sizeof imid */ + sizeof(CARD16); /* sizeof icid */ _XimSetHeader((XPointer)buf, XIM_RESET_IC, 0, &len); if (!(_XimWrite(im, len, (XPointer)buf))) return NULL; _XimFlush(im); ic->private.proto.waitCallback = True; buf_size = BUFSIZE; ret_code = _XimRead(im, &len, (XPointer)reply, buf_size, _XimResetICCheck, (XPointer)ic); if (ret_code == XIM_TRUE) { preply = reply; } else if (ret_code == XIM_OVERFLOW) { if (len < 0) { preply = reply; } else { buf_size = len; preply = (XPointer)Xmalloc(buf_size); ret_code = _XimRead(im, &len, preply, buf_size, _XimResetICCheck, (XPointer)ic); if (ret_code != XIM_TRUE) { Xfree(preply); ic->private.proto.waitCallback = False; return NULL; } } } else { ic->private.proto.waitCallback = False; return NULL; } ic->private.proto.waitCallback = False; buf_s = (CARD16 *)((char *)preply + XIM_HEADER_SIZE); if (*((CARD8 *)preply) == XIM_ERROR) { _XimProcError(im, 0, (XPointer)&buf_s[3]); if (reply != preply) free(preply); return NULL; } commit = retfunc(im, ic, (XPointer)&buf_s[2]); if (reply != preply) Xfree(preply); return commit; } Private char * _XimCommitedMbString(im, ic, buf) Xim im; Xic ic; XPointer buf; { CARD16 *buf_s = (CARD16 *)buf; XimCommitInfo info; int len; int new_len; char *commit; char *new_commit = NULL; char *str; Status status; len = 0; for (info = ic->private.proto.commit_info; info; info = info->next) len += info->string_len; len += buf_s[0]; if ( len == 0 ) return( NULL ); if (!(commit = (char *)Xmalloc(len + 1))) goto Error_On_Reset; str = commit; for (info = ic->private.proto.commit_info; info; info = info->next) { (void)memcpy(str, info->string, info->string_len); str += info->string_len; } (void)memcpy(str, (char *)&buf_s[1], buf_s[0]); commit[len] = '\0'; new_len = im->methods->ctstombs((XIM)im, commit, len, NULL, 0, &status); if (status != XLookupNone) { if (!(new_commit = Xmalloc(new_len + 1))) { Xfree(commit); goto Error_On_Reset; } (void)im->methods->ctstombs((XIM)im, commit, len, new_commit, new_len, NULL); new_commit[new_len] = '\0'; } Xfree(commit); Error_On_Reset: _XimFreeCommitInfo( ic ); return new_commit; } Private char * _XimProtoMbReset(xic) XIC xic; { return _XimProtoReset(xic, _XimCommitedMbString); } Private wchar_t * _XimCommitedWcString(im, ic, buf) Xim im; Xic ic; XPointer buf; { CARD16 *buf_s = (CARD16 *)buf; XimCommitInfo info; int len; int new_len; char *commit; wchar_t *new_commit = (wchar_t *)NULL; char *str; Status status; len = 0; for (info = ic->private.proto.commit_info; info; info = info->next) len += info->string_len; len += buf_s[0]; if ( len == 0 ) return( (wchar_t *)NULL ); if (!(commit = (char *)Xmalloc(len + 1))) goto Error_On_Reset; str = commit; for (info = ic->private.proto.commit_info; info; info = info->next) { (void)memcpy(str, info->string, info->string_len); str += info->string_len; } (void)memcpy(str, (char *)&buf_s[1], buf_s[0]); commit[len] = '\0'; new_len = im->methods->ctstowcs((XIM)im, commit, len, NULL, 0, &status); if (status != XLookupNone) { if (!(new_commit = (wchar_t *)Xmalloc(sizeof(wchar_t) * (new_len + 1)))) { Xfree(commit); goto Error_On_Reset; } (void)im->methods->ctstowcs((XIM)im, commit, len, new_commit, new_len, NULL); new_commit[new_len] = (wchar_t)'\0'; } Xfree(commit); Error_On_Reset: _XimFreeCommitInfo( ic ); return new_commit; } Private wchar_t * _XimProtoWcReset(xic) XIC xic; { return (wchar_t *) _XimProtoReset(xic, (char * (*) (Xim, Xic, XPointer)) _XimCommitedWcString); } Private char * _XimCommitedUtf8String(im, ic, buf) Xim im; Xic ic; XPointer buf; { CARD16 *buf_s = (CARD16 *)buf; XimCommitInfo info; int len; int new_len; char *commit; char *new_commit = NULL; char *str; Status status; len = 0; for (info = ic->private.proto.commit_info; info; info = info->next) len += info->string_len; len += buf_s[0]; if ( len == 0 ) return( NULL ); if (!(commit = (char *)Xmalloc(len + 1))) goto Error_On_Reset; str = commit; for (info = ic->private.proto.commit_info; info; info = info->next) { (void)memcpy(str, info->string, info->string_len); str += info->string_len; } (void)memcpy(str, (char *)&buf_s[1], buf_s[0]); commit[len] = '\0'; new_len = im->methods->ctstoutf8((XIM)im, commit, len, NULL, 0, &status); if (status != XLookupNone) { if (!(new_commit = Xmalloc(new_len + 1))) { Xfree(commit); goto Error_On_Reset; } (void)im->methods->ctstoutf8((XIM)im, commit, len, new_commit, new_len, NULL); new_commit[new_len] = '\0'; } Xfree(commit); Error_On_Reset: _XimFreeCommitInfo( ic ); return new_commit; } Private char * _XimProtoUtf8Reset(xic) XIC xic; { return _XimProtoReset(xic, _XimCommitedUtf8String); } Private XICMethodsRec ic_methods = { _XimProtoDestroyIC, /* destroy */ _XimProtoSetFocus, /* set_focus */ _XimProtoUnsetFocus, /* unset_focus */ _XimProtoSetICValues, /* set_values */ _XimProtoGetICValues, /* get_values */ _XimProtoMbReset, /* mb_reset */ _XimProtoWcReset, /* wc_reset */ _XimProtoUtf8Reset, /* utf8_reset */ _XimProtoMbLookupString, /* mb_lookup_string */ _XimProtoWcLookupString, /* wc_lookup_string */ _XimProtoUtf8LookupString /* utf8_lookup_string */ }; Private Bool _XimGetInputStyle(arg, input_style) XIMArg *arg; XIMStyle *input_style; { register XIMArg *p; for (p = arg; p && p->name; p++) { if (!(strcmp(p->name, XNInputStyle))) { *input_style = (XIMStyle)p->value; return True; } } return False; } #ifdef XIM_CONNECTABLE Private Bool _XimDelayModeCreateIC(ic, values, res, num) Xic ic; XIMArg *values; XIMResourceList res; unsigned int num; { Xim im = (Xim)ic->core.im; XimDefICValues ic_values; int len; XIMStyle input_style; bzero((char *)&ic_values, sizeof(XimDefICValues)); _XimGetCurrentICValues(ic, &ic_values); if (!(_XimGetInputStyle(values, &input_style))) return False; _XimSetICMode(res, num, input_style); if (_XimSetICValueData(ic, (XPointer)&ic_values, res, num, values, XIM_CREATEIC, False)) { return False; } _XimSetCurrentICValues(ic, &ic_values); if (!_XimSetICDefaults(ic, (XPointer)&ic_values, XIM_SETICDEFAULTS, res, num)) { return False; } ic_values.filter_events = KeyPressMask; _XimSetCurrentICValues(ic, &ic_values); _XimRegisterFilter(ic); return True; } Public Bool _XimReconnectModeCreateIC(ic) Xic ic; { Xim im = (Xim)ic->core.im; int len; XIMStyle input_style = ic->core.input_style; XIMResourceList res; unsigned int num; num = im->core.ic_num_resources; len = sizeof(XIMResource) * num; if (!(res = (XIMResourceList)Xmalloc(len))) return False; (void)memcpy((char *)res, (char *)im->core.ic_resources, len); ic->private.proto.ic_resources = res; ic->private.proto.ic_num_resources = num; _XimSetICMode(res, num, input_style); ic->core.filter_events = KeyPressMask; return True; } #endif /* XIM_CONNECTABLE */ Public XIC _XimProtoCreateIC(xim, arg) XIM xim; XIMArg *arg; { Xim im = (Xim)xim; Xic ic; XimDefICValues ic_values; XIMResourceList res; unsigned int num; XIMStyle input_style; INT16 len; CARD16 *buf_s; char *tmp; CARD32 tmp_buf32[BUFSIZE/4]; char *tmp_buf = (char *)tmp_buf32; char *buf; int buf_size; char *data; int data_len; int ret_len; int total; XIMArg *arg_ret; CARD32 reply32[BUFSIZE/4]; char *reply = (char *)reply32; XPointer preply; int ret_code; #ifdef XIM_CONNECTABLE if (!IS_SERVER_CONNECTED(im) && !IS_CONNECTABLE(im)) return (XIC)NULL; #else if (!IS_SERVER_CONNECTED(im)) return (XIC)NULL; #endif /* XIM_CONNECTABLE */ if (!(_XimGetInputStyle(arg, &input_style))) return (XIC)NULL; if ((ic = (Xic)Xmalloc(sizeof(XicRec))) == (Xic)NULL) return (XIC)NULL; bzero((char *)ic, sizeof(XicRec)); ic->methods = &ic_methods; ic->core.im = (XIM)im; ic->core.input_style = input_style; num = im->core.ic_num_resources; len = sizeof(XIMResource) * num; if (!(res = (XIMResourceList)Xmalloc(len))) return (XIC)NULL; (void)memcpy((char *)res, (char *)im->core.ic_resources, len); ic->private.proto.ic_resources = res; ic->private.proto.ic_num_resources = num; #ifdef XIM_CONNECTABLE if (!_XimSaveICValues(ic, arg)) return False; if (!IS_SERVER_CONNECTED(im)) { if (!_XimConnectServer(im)) { if (_XimDelayModeCreateIC(ic, arg, res, num)) { return (XIC)ic; } goto ErrorOnCreatingIC; } } #endif /* XIM_CONNECTABLE */ ic->core.filter_events = im->private.proto.forward_event_mask; ic->private.proto.forward_event_mask = im->private.proto.forward_event_mask; ic->private.proto.synchronous_event_mask = im->private.proto.synchronous_event_mask; num = im->private.proto.ic_num_inner_resources; len = sizeof(XIMResource) * num; if (!(res = (XIMResourceList)Xmalloc(len))) return (XIC)NULL; (void)memcpy((char *)res, (char *)im->private.proto.ic_inner_resources, len); ic->private.proto.ic_inner_resources = res; ic->private.proto.ic_num_inner_resources = num; _XimSetICMode(ic->private.proto.ic_resources, ic->private.proto.ic_num_resources, input_style); _XimSetICMode(ic->private.proto.ic_inner_resources, ic->private.proto.ic_num_inner_resources, input_style); _XimGetCurrentICValues(ic, &ic_values); buf = tmp_buf; buf_size = XIM_HEADER_SIZE + sizeof(CARD16) + sizeof(INT16); data_len = BUFSIZE - buf_size; total = 0; arg_ret = arg; for (;;) { data = &buf[buf_size]; if (_XimEncodeICATTRIBUTE(ic, ic->private.proto.ic_resources, ic->private.proto.ic_num_resources, arg, &arg_ret, data, data_len, &ret_len, (XPointer)&ic_values, 0, XIM_CREATEIC)) { goto ErrorOnCreatingIC; } total += ret_len; if (!(arg = arg_ret)) { break; } buf_size += ret_len; if (buf == tmp_buf) { if (!(tmp = (char *)Xmalloc(buf_size + data_len))) { goto ErrorOnCreatingIC; } memcpy(tmp, buf, buf_size); buf = tmp; } else { if (!(tmp = (char *)Xrealloc(buf, (buf_size + data_len)))) { Xfree(buf); goto ErrorOnCreatingIC; } buf = tmp; } } _XimSetCurrentICValues(ic, &ic_values); if (!(_XimCheckCreateICValues(ic->private.proto.ic_resources, ic->private.proto.ic_num_resources))) goto ErrorOnCreatingIC; _XimRegisterFilter(ic); buf_s = (CARD16 *)&buf[XIM_HEADER_SIZE]; buf_s[0] = im->private.proto.imid; buf_s[1] = (INT16)total; len = (INT16)(sizeof(CARD16) + sizeof(INT16) + total); _XimSetHeader((XPointer)buf, XIM_CREATE_IC, 0, &len); if (!(_XimWrite(im, len, (XPointer)buf))) { if (buf != tmp_buf) Xfree(buf); goto ErrorOnCreatingIC; } _XimFlush(im); if (buf != tmp_buf) Xfree(buf); ic->private.proto.waitCallback = True; buf_size = BUFSIZE; ret_code = _XimRead(im, &len, (XPointer)reply, buf_size, _XimCreateICCheck, 0); if (ret_code == XIM_TRUE) { preply = reply; } else if (ret_code == XIM_OVERFLOW) { if (len <= 0) { preply = reply; } else { buf_size = (int)len; preply = (XPointer)Xmalloc(buf_size); ret_code = _XimRead(im, &len, preply, buf_size, _XimCreateICCheck, 0); if (ret_code != XIM_TRUE) { Xfree(preply); ic->private.proto.waitCallback = False; goto ErrorOnCreatingIC; } } } else { ic->private.proto.waitCallback = False; goto ErrorOnCreatingIC; } ic->private.proto.waitCallback = False; buf_s = (CARD16 *)((char *)preply + XIM_HEADER_SIZE); if (*((CARD8 *)preply) == XIM_ERROR) { _XimProcError(im, 0, (XPointer)&buf_s[3]); if (reply != preply) Xfree(preply); goto ErrorOnCreatingIC; } ic->private.proto.icid = buf_s[1]; /* icid */ if (reply != preply) Xfree(preply); MARK_IC_CONNECTED(ic); return (XIC)ic; ErrorOnCreatingIC: if (ic->private.proto.ic_resources) Xfree(ic->private.proto.ic_resources); if (ic->private.proto.ic_inner_resources) Xfree(ic->private.proto.ic_inner_resources); Xfree(ic); return (XIC)NULL; }