/* $Xorg: XTestExt1.c,v 1.3 2000/08/17 19:45:52 cpqbld Exp $ */ /* * File: xtestext1lib.c * * This file contains the Xlib parts of the input synthesis extension */ /* Copyright 1986, 1987, 1988, 1998 The Open Group All Rights Reserved. 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. Copyright 1986, 1987, 1988 by Hewlett-Packard Corporation 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 and that both that copyright notice and this permission notice appear in supporting documentation, and that the name of Hewlett-Packard not be used in advertising or publicity pertaining to distribution of the software without specific, written prior permission. Hewlett-Packard makes no representations about the suitability of this software for any purpose. It is provided "as is" without express or implied warranty. This software is not subject to any license of the American Telephone and Telegraph Company or of the Regents of the University of California. */ /* $XFree86: xc/lib/Xext/XTestExt1.c,v 1.3 2001/01/17 19:42:46 dawes Exp $ */ /****************************************************************************** * include files *****************************************************************************/ #define NEED_REPLIES #define NEED_EVENTS #include #include #include #include /****************************************************************************** * variables *****************************************************************************/ /* * Holds the request type code for this extension. The request type code * for this extension may vary depending on how many extensions are installed * already, so the initial value given below will be added to the base request * code that is aquired when this extension is installed. */ static int XTestReqCode = 0; /* * Holds the two event type codes for this extension. The event type codes * for this extension may vary depending on how many extensions are installed * already, so the initial values given below will be added to the base event * code that is aquired when this extension is installed. * * These two variables must be available to programs that use this extension. */ int XTestInputActionType = 0; int XTestFakeAckType = 1; /* * holds the current x and y coordinates for XTestMovePointer */ static int current_x = 0; static int current_y = 0; /* * Holds input actions being accumulated until the input action buffer is * full or until XTestFlush is called. */ static CARD8 action_buf[XTestMAX_ACTION_LIST_SIZE]; /* * the index into the input action buffer */ static int action_index = 0; /* * the number of input actions that the server can handle at one time */ static unsigned long action_array_size = 0; /* * the current number of input actions */ static unsigned long action_count = 0; /****************************************************************************** * function declarations *****************************************************************************/ static int XTestWireToEvent(); static int XTestCheckExtInit(); static Bool XTestIdentifyMyEvent(); static int XTestInitExtension(); static int XTestKeyOrButton(); static int XTestCheckDelay(); static int XTestPackInputAction(); static int XTestWriteInputActions(); /****************************************************************************** * * XTestFakeInput * * Send a a request containing one or more input actions to be sent * to the server by this extension. */ int XTestFakeInput(dpy, action_list_addr, action_list_size, ack_flag) /* * the connection to the X server */ register Display *dpy; /* * the address of a list of input actions to be sent to the server */ char *action_list_addr; /* * the size (in bytes) of the list of input actions */ int action_list_size; /* * specifies whether the server needs to send an event to indicate that its * input action buffer is empty */ int ack_flag; { /* * pointer to xTestFakeInputReq structure */ xTestFakeInputReq *req; /* * loop index */ int i; LockDisplay(dpy); if ((XTestCheckExtInit(dpy) == -1) || (action_list_size > XTestMAX_ACTION_LIST_SIZE)) { /* * if the extension is not installed in the server or the * action list will not fit in the request, then unlock * the display and return -1. */ UnlockDisplay(dpy); return(-1); } else { /* * Get the next available X request packet in the buffer. * It sets the `length' field to the size (in 32-bit words) * of the request. It also sets the `reqType' field in the * request to X_TestFakeInput, which is not what is needed. * * GetReq is a macro defined in Xlibint.h. */ GetReq(TestFakeInput, req); /* * fix up the request type code to what is needed */ req->reqType = XTestReqCode; /* * set the minor request type code to X_TestFakeInput */ req->XTestReqType = X_TestFakeInput; /* * set the ack code */ req->ack = ack_flag; /* * Set the action_list area to all 0's. An input action header * value of 0 is interpreted as a flag to the input action * list handling code in the server part of this extension * that there are no more input actions in this request. */ for (i = 0; i < XTestMAX_ACTION_LIST_SIZE; i++) { req->action_list[i] = 0; } /* * copy the input actions into the request */ for (i = 0; i < action_list_size; i++) { req->action_list[i] = *(action_list_addr++); } UnlockDisplay(dpy); SyncHandle(); return(0); } } /****************************************************************************** * * XTestGetInput * * Request the server to begin putting user input actions into events * to be sent to the client that called this function. */ int XTestGetInput(dpy, action_handling) /* * the connection to the X server */ register Display *dpy; /* * tells the server what to do with the user input actions */ int action_handling; { /* * pointer to xTestGetInputReq structure */ xTestGetInputReq *req; LockDisplay(dpy); if (XTestCheckExtInit(dpy) == -1) { /* * if the extension is not installed in the server * then unlock the display and return -1. */ UnlockDisplay(dpy); return(-1); } else { /* * Get the next available X request packet in the buffer. * It sets the `length' field to the size (in 32-bit words) * of the request. It also sets the `reqType' field in the * request to X_TestGetInput, which is not what is needed. * * GetReq is a macro defined in Xlibint.h. */ GetReq(TestGetInput, req); /* * fix up the request type code to what is needed */ req->reqType = XTestReqCode; /* * set the minor request type code to X_TestGetInput */ req->XTestReqType = X_TestGetInput; /* * set the action handling mode */ req->mode = action_handling; UnlockDisplay(dpy); SyncHandle(); return(0); } } /****************************************************************************** * * XTestStopInput * * Tell the server to stop putting information about user input actions * into events. */ int XTestStopInput(dpy) /* * the connection to the X server */ register Display *dpy; { /* * pointer to xTestStopInputReq structure */ xTestStopInputReq *req; LockDisplay(dpy); if (XTestCheckExtInit(dpy) == -1) { /* * if the extension is not installed in the server * then unlock the display and return -1. */ UnlockDisplay(dpy); return(-1); } else { /* * Get the next available X request packet in the buffer. * It sets the `length' field to the size (in 32-bit words) * of the request. It also sets the `reqType' field in the * request to X_TestStopInput, which is not what is needed. * * GetReq is a macro defined in Xlibint.h. */ GetReq(TestStopInput, req); /* * fix up the request type code to what is needed */ req->reqType = XTestReqCode; /* * set the minor request type code to X_TestStopInput */ req->XTestReqType = X_TestStopInput; UnlockDisplay(dpy); SyncHandle(); return(0); } } /****************************************************************************** * * XTestReset * * Tell the server to set everything having to do with this extension * back to its initial state. */ int XTestReset(dpy) /* * the connection to the X server */ register Display *dpy; { /* * pointer to xTestReset structure */ xTestResetReq *req; LockDisplay(dpy); if (XTestCheckExtInit(dpy) == -1) { /* * if the extension is not installed in the server * then unlock the display and return -1. */ UnlockDisplay(dpy); return(-1); } else { /* * Get the next available X request packet in the buffer. * It sets the `length' field to the size (in 32-bit words) * of the request. It also sets the `reqType' field in the * request to X_TestReset, which is not what is needed. * * GetReq is a macro defined in Xlibint.h. */ GetReq(TestReset, req); /* * fix up the request type code to what is needed */ req->reqType = XTestReqCode; /* * set the minor request type code to X_TestReset */ req->XTestReqType = X_TestReset; UnlockDisplay(dpy); SyncHandle(); return(0); } } /****************************************************************************** * * XTestQueryInputSize * * Returns the number of input actions in the server's input action buffer. */ int XTestQueryInputSize(dpy, size_return) /* * the connection to the X server */ register Display *dpy; /* * the address of the place to put the number of input actions in the * server's input action buffer */ unsigned long *size_return; { /* * pointer to xTestQueryInputSize structure */ xTestQueryInputSizeReq *req; /* * pointer to xTestQueryInputSize structure */ xTestQueryInputSizeReply rep; LockDisplay(dpy); if (XTestCheckExtInit(dpy) == -1) { /* * if the extension is not installed in the server * then unlock the display and return -1. */ UnlockDisplay(dpy); return(-1); } else { /* * Get the next available X request packet in the buffer. * It sets the `length' field to the size (in 32-bit words) * of the request. It also sets the `reqType' field in the * request to X_TestQueryInputSize, which is not what is needed. * * GetReq is a macro defined in Xlibint.h. */ GetReq(TestQueryInputSize, req); /* * fix up the request type code to what is needed */ req->reqType = XTestReqCode; /* * set the minor request type code to X_TestQueryInputSize */ req->XTestReqType = X_TestQueryInputSize; /* * get a reply from the server */ (void) _XReply (dpy, (xReply *) &rep, 0, xTrue); /* * put the size in the caller's variable */ *size_return = (unsigned long) rep.size_return; UnlockDisplay(dpy); SyncHandle(); return(0); } } /****************************************************************************** * * XTestCheckExtInit * * Check to see if the XTest extension is installed in the server. */ static int XTestCheckExtInit(dpy) /* * the connection to the X server */ register Display *dpy; { /* * if the extension has not been initialized, then do so */ if (!XTestReqCode) { return(XTestInitExtension(dpy)); } return(0); } /****************************************************************************** * * XTestInitExtension * * Attempt to initialize this extension in the server. Return 0 if it * succeeds, -1 if it does not succeed. */ static int XTestInitExtension(dpy) /* * the connection to the X server */ register Display *dpy; { /* * loop index */ int i; /* * return value from XInitExtension */ XExtCodes *ret; /* * attempt to initialize the extension */ ret = XInitExtension(dpy, XTestEXTENSION_NAME); /* * if the initialize failed, return -1 */ if (ret == NULL) { return (-1); } /* * the initialize succeeded, remember the major opcode * for this extension */ XTestReqCode = ret->major_opcode; /* * set up the event handler for any events from * this extension */ for (i = 0; i < XTestEVENT_COUNT; i++) { XESetWireToEvent(dpy, ret->first_event+i, XTestWireToEvent); } /* * compute the event type codes for the events * in this extension */ XTestInputActionType += ret->first_event; XTestFakeAckType += ret->first_event; /* * everything worked ok */ return(0); } /****************************************************************************** * * XTestWireToEvent * * Handle XTest extension events. * Reformat a wire event into an XEvent structure of the right type. */ static Bool XTestWireToEvent(dpy, reTemp, eventTemp) /* * the connection to the X server */ Display *dpy; /* * a pointer to where a host formatted event should be stored * with the information copied to it */ XEvent *reTemp; /* * a pointer to the wire event */ xEvent *eventTemp; { XTestInputActionEvent *re = (XTestInputActionEvent *) reTemp; xTestInputActionEvent *event = (xTestInputActionEvent *) eventTemp; /* * loop index */ int i; /* * pointer to where the input actions go in the host format event */ CARD8 *to; /* * pointer to the input actions in the wire event */ CARD8 *from; /* * Copy the type of the wire event to the new event. * This will work for either event type because the type, * display, and window fields in the events have to be the same. */ re->type = event->type; /* * set the display parameter in case it is needed (by who?) */ re->display = dpy; if (re->type == XTestInputActionType) { /* * point at the first byte of input actions in the wire event */ from = &(event->actions[0]); /* * point at where the input action bytes go in the new event */ to = &(re->actions[0]); /* * copy the input action bytes from the wire event to * the new event */ for (i = 0; i < XTestACTIONS_SIZE; i++) { *(to++) = *(from++); } } else if (re->type == XTestFakeAckType) { /* * nothing else needs to be done */ } else { printf("XTestWireToEvent: UNKNOWN WIRE EVENT! type=%d\n", (int) event->type); printf("%s is giving up.\n", XTestEXTENSION_NAME); exit (1); } return 1; } /****************************************************************************** * * XTestPressKey * * Send input actions to the server to cause the server to think * that the specified key on the keyboard was moved as specified. */ int XTestPressKey(display, device_id, delay, keycode, key_action) Display *display; int device_id; unsigned long delay; unsigned int keycode; unsigned int key_action; { /* * bounds check the key code */ if (keycode < 8 || keycode > 255) { return(-1); } /* * use the commmon key/button handling routine */ return(XTestKeyOrButton(display, device_id, delay, keycode, key_action)); } /****************************************************************************** * * XTestPressButton * * Send input actions to the server to cause the server to think * that the specified button on the mouse was moved as specified. */ int XTestPressButton(display, device_id, delay, button_number, button_action) Display *display; int device_id; unsigned long delay; unsigned int button_number; unsigned int button_action; { /* * bounds check the button number */ if (button_number > 7) { return(-1); } /* * use the commmon key/button handling routine */ return(XTestKeyOrButton(display, device_id, delay, button_number, button_action)); } /****************************************************************************** * * XTestKeyOrButton * * Send input actions to the server to cause the server to think * that the specified key/button was moved as specified. */ static int XTestKeyOrButton(display, device_id, delay, code, action) Display *display; int device_id; unsigned long delay; unsigned int code; unsigned int action; { /* * holds a key input action to be filled out and sent to the server */ XTestKeyInfo keyinfo; /* * bounds check the device id */ if (device_id < 0 || device_id > XTestMAX_DEVICE_ID) { return(-1); } /* * fill out the key input action(s) as appropriate */ switch(action) { case XTestPRESS: /* * Check the delay. If it is larger than will fit in the * key input action, send a delay input action. */ if(XTestCheckDelay(display, &delay) == -1) { /* * an error occurred, return -1 */ return(-1); } /* * create the header */ keyinfo.header = XTestPackDeviceID(device_id) | XTestKEY_ACTION | XTestKEY_DOWN; /* * set the key/button code */ keyinfo.keycode = code; /* * set the delay time */ keyinfo.delay_time = delay; /* * pack the input action into a request to be sent to the * server when the request is full or XTestFlush is called */ return(XTestPackInputAction(display, (CARD8 *) &keyinfo, sizeof(XTestKeyInfo))); case XTestRELEASE: /* * Check the delay. If it is larger than will fit in the * key input action, send a delay input action. */ if(XTestCheckDelay(display, &delay) == -1) { /* * an error occurred, return -1 */ return(-1); } /* * create the header */ keyinfo.header = XTestPackDeviceID(device_id) | XTestKEY_ACTION | XTestKEY_UP; /* * set the key/button code */ keyinfo.keycode = code; /* * set the delay time */ keyinfo.delay_time = delay; /* * pack the input action into a request to be sent to the * server when the request is full or XTestFlush is called */ return(XTestPackInputAction(display, (CARD8 *) &keyinfo, sizeof(XTestKeyInfo))); case XTestSTROKE: /* * Check the delay. If it is larger than will fit in the * key input action, send a delay input action. */ if(XTestCheckDelay(display, &delay) == -1) { /* * an error occurred, return -1 */ return(-1); } /* * create a key/button-down input action header */ keyinfo.header = XTestPackDeviceID(device_id) | XTestKEY_ACTION | XTestKEY_DOWN; /* * set the key/button code */ keyinfo.keycode = code; /* * set the delay time */ keyinfo.delay_time = delay; /* * pack the input action into a request to be sent to the * server when the request is full or XTestFlush is called */ if (XTestPackInputAction(display, (CARD8 *) &keyinfo, sizeof(XTestKeyInfo)) == -1) { /* * an error occurred, return -1 */ return(-1); } /* * set the delay to XTestSTROKE_DELAY_TIME */ delay = XTestSTROKE_DELAY_TIME; /* * Check the delay. If it is larger than will fit in the * key input action, send a delay input action. */ if(XTestCheckDelay(display, &delay) == -1) { /* * an error occurred, return -1 */ return(-1); } /* * create a key/button-up input action header */ keyinfo.header = XTestPackDeviceID(device_id) | XTestKEY_ACTION | XTestKEY_UP; /* * set the key/button code */ keyinfo.keycode = code; /* * set the delay time */ keyinfo.delay_time = delay; /* * pack the input action into a request to be sent to the * server when the request is full or XTestFlush is called */ return(XTestPackInputAction(display, (CARD8 *) &keyinfo, sizeof(XTestKeyInfo))); default: /* * invalid action value, return -1 */ return(-1); } } /****************************************************************************** * * XTestMovePointer * * Send input actions to the server to cause the server to think * that the mouse was moved as specified. */ int XTestMovePointer(display, device_id, delay, x, y, count) Display *display; int device_id; unsigned long delay[]; int x[]; int y[]; unsigned int count; { /* * holds a motion input action to be filled out and sent to the server */ XTestMotionInfo motioninfo; /* * holds a jump input action to be filled out and sent to the server */ XTestJumpInfo jumpinfo; /* * loop index */ unsigned int i; /* * holds the change in x and y directions from the current x and y * coordinates */ int dx; int dy; /* * bounds check the device id */ if (device_id < 0 || device_id > XTestMAX_DEVICE_ID) { return(-1); } /* * if the count is 0, there is nothing to do. return 0 */ if (count == 0) { return(0); } /* * loop through the pointer motions, creating the appropriate * input actions for each motion */ for (i = 0; i < count; i++) { /* * Check the delay. If it is larger than will fit in the * input action, send a delay input action. */ if(XTestCheckDelay(display, &(delay[i])) == -1) { /* * an error occurred, return -1 */ return(-1); } /* * compute the change from the current x and y coordinates * to the new x and y coordinates */ dx = x[i] - current_x; dy = y[i] - current_y; /* * update the current x and y coordinates */ current_x = x[i]; current_y = y[i]; /* * If the pointer motion range is too large to fit into * a motion input action, then use a jump input action. * Otherwise, use a motion input action. */ if ((dx > XTestMOTION_MAX) || (dx < XTestMOTION_MIN) || (dy > XTestMOTION_MAX) || (dy < XTestMOTION_MIN)) { /* * create a jump input action header */ jumpinfo.header = XTestPackDeviceID(device_id) | XTestJUMP_ACTION; /* * set the x and y coordinates to jump to */ jumpinfo.jumpx = x[i]; jumpinfo.jumpy = y[i]; /* * set the delay time */ jumpinfo.delay_time = delay[i]; /* * pack the jump input action into a request to be * sent to the server when the request is full * or XTestFlush is called */ if (XTestPackInputAction(display, (CARD8 *) &jumpinfo, sizeof(XTestJumpInfo)) == -1) { /* * an error occurred, return -1 */ return(-1); } } else { /* * create a motion input action header */ motioninfo.header = XTestPackDeviceID(device_id) | XTestMOTION_ACTION; /* * compute the motion data byte */ if (dx < 0) { motioninfo.header |= XTestX_NEGATIVE; dx = abs(dx); } if (dy < 0) { motioninfo.header |= XTestY_NEGATIVE; dy = abs(dy); } motioninfo.motion_data = XTestPackXMotionValue(dx); motioninfo.motion_data |= XTestPackYMotionValue(dy); /* * set the delay time */ motioninfo.delay_time = delay[i]; /* * pack the motion input action into a request to be * sent to the server when the request is full * or XTestFlush is called */ if (XTestPackInputAction(display, (CARD8 *) &motioninfo, sizeof(XTestMotionInfo)) == -1) { /* * an error occurred, return -1 */ return(-1); } } } /* * if you get here, everything went ok */ return(0); } /****************************************************************************** * * XTestCheckDelay * * Check the delay value at the passed-in address. If it is larger than * will fit in a normal input action, then send a delay input action. */ static int XTestCheckDelay(display, delay_addr) Display *display; unsigned long *delay_addr; { /* * holds a delay input action to be filled out and sent to the server */ XTestDelayInfo delayinfo; /* * if the delay value will fit in the input action, * then there is no need for a delay input action */ if (*delay_addr <= XTestSHORT_DELAY_TIME) { return(0); } /* * fill out a delay input action */ delayinfo.header = XTestPackDeviceID(XTestDELAY_DEVICE_ID); delayinfo.delay_time = *delay_addr; /* * all of the delay time will be accounted for in the * delay input action, so set the original delay value to 0 */ *delay_addr = 0; /* * pack the delay input action into a request to be sent to the * server when the request is full or XTestFlush is called */ return(XTestPackInputAction(display, (CARD8 *) &delayinfo, sizeof(XTestDelayInfo))); } /****************************************************************************** * * XTestPackInputAction * * If the input action buffer is full or the number of input actions * has reached the maximum that the server can handle at one time, * then send the input actions to the server using XTestFakeInput. */ static int XTestPackInputAction(display, action_addr, action_size) Display *display; CARD8 *action_addr; int action_size; { /* * loop index */ int i; /* * acknowledge flag */ int ack_flag; /* * if we don't already know it, find out how many input actions * the server can handle at one time */ if (action_array_size == 0) { if(XTestQueryInputSize(display, &action_array_size) == -1) { /* * if an error, return -1 */ return(-1); } } /* * if the specified input action will fit in the the input * action buffer and won't exceed the server's capacity, then * put the input action into the input buffer */ if(((action_index + action_size) <= XTestMAX_ACTION_LIST_SIZE) && ((action_count + 1) < action_array_size)) { /* * copy the input action into the buffer */ for (i = 0; i < action_size; i++) { action_buf[action_index++] = *(action_addr++); } /* * increment the action count */ action_count++; /* * everything went ok, return 0 */ return(0); } /* * We have to write input actions to the server. If the server's * input action capacity will be reached, then ask for an * acknowledge event when the server has processed all of the * input actions. Otherwise, an acknowledge event is not needed. */ if (action_count >= action_array_size) { ack_flag = XTestFAKE_ACK_REQUEST; } else { ack_flag = XTestFAKE_ACK_NOT_NEEDED; } /* * write the input actions to the server */ if (XTestWriteInputActions(display, (char *) &(action_buf[0]), action_index, ack_flag) == -1) { /* * error, return -1 */ return(-1); } /* * copy the input action into the buffer */ for (i = 0; i < action_size; i++) { action_buf[action_index++] = *(action_addr++); } /* * increment the action count */ action_count++; return(0); } /****************************************************************************** * * XTestWriteInputActions * * Send input actions to the server. */ static int XTestWriteInputActions(display, action_list_addr, action_list_size, ack_flag) Display *display; char *action_list_addr; int action_list_size; int ack_flag; { /* * Holds an event. Used while waiting for an acknowledge event */ XEvent event; /* * points to XTestIdentifyMyEvent */ Bool (*func_ptr)(); /* * write the input actions to the server */ if (XTestFakeInput(display, action_list_addr, action_list_size, ack_flag) == -1) { /* * if an error, return -1 */ return(-1); } /* * flush X's buffers to make sure that the server really gets * the input actions */ XFlush(display); /* * mark the input action buffer as empty */ action_index = 0; /* * if we asked for an acknowledge event, then wait for it */ if (ack_flag == XTestFAKE_ACK_REQUEST) { /* * point func_ptr at XTestIdentifyMyEvent */ func_ptr = XTestIdentifyMyEvent; /* * Wait until the acknowledge event comes. When the * acknowledge event comes, it is removed from the event * queue without disturbing any other events that might * be in the queue. */ XIfEvent(display, &event, func_ptr, NULL); /* * set the input action count back to 0 */ action_count = 0; } /* * if we got here, then everything is ok, return 0 */ return(0); } /****************************************************************************** * * XTestIdentifyMyEvent * * This function is called by XIfEvent to look at an event and see if * it is of XTestFakeAckType. */ static Bool XTestIdentifyMyEvent(display, event_ptr, args) Display *display; /* * Holds the event that this routiine is supposed to look at. */ XEvent *event_ptr; /* * this points to any user-specified arguments (ignored) */ char *args; { /* * if the event if of the correct type, return the Bool True, * otherwise return the Bool False. */ if (event_ptr->type == XTestFakeAckType) { return(True); } else { return(False); } } /****************************************************************************** * * XTestFlush * * Send any input actions in the input action buffer to the server. */ int XTestFlush(display) Display *display; { /* * acknowledge flag */ int ack_flag; /* * if there are no input actions in the input action buffer, * then return 0 */ if (action_index == 0) { return(0); } /* * We have input actions to write to the server. We will * wait until the server has finished processing the input actions. */ ack_flag = XTestFAKE_ACK_REQUEST; /* * write the input actions to the server */ return(XTestWriteInputActions(display, (char *) &(action_buf[0]), action_index, ack_flag)); }