/* GDK - The GIMP Drawing Kit * Copyright (C) 1995-1997 Peter Mattis, Spencer Kimball and Josh MacDonald * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; either * version 2 of the License, or (at your option) any later version. * * This library is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this library; if not, write to the * Free Software Foundation, Inc., 59 Temple Place - Suite 330, * Boston, MA 02111-1307, USA. */ /* * Modified by the GTK+ Team and others 1997-2000. See the AUTHORS * file for a list of people on the GTK+ Team. See the ChangeLog * files for a list of changes. These files are distributed with * GTK+ at ftp://ftp.gtk.org/pub/gtk/. */ #include "gdkinputprivate.h" #include "gdkinternals.h" #include "gdkx.h" #include "gdk.h" /* For gdk_error_trap_push()/pop() */ #include /* Forward declarations */ static GdkDevicePrivate *gdk_input_device_new(XDeviceInfo *device, gint include_core); static void gdk_input_translate_coordinates(GdkDevicePrivate *gdkdev, GdkInputWindow *input_window, gint *axis_data, gdouble *axis_out, gdouble *x_out, gdouble *y_out); static guint gdk_input_translate_state(guint state, guint device_state); /* Global variables */ GdkDevicePrivate * gdk_input_find_device (guint32 id) { GList *tmp_list = gdk_input_devices; GdkDevicePrivate *gdkdev; while (tmp_list) { gdkdev = (GdkDevicePrivate *)(tmp_list->data); if (gdkdev->deviceid == id) return gdkdev; tmp_list = tmp_list->next; } return NULL; } void gdk_input_get_root_relative_geometry(Display *dpy, Window w, int *x_ret, int *y_ret, int *width_ret, int *height_ret) { Window root, parent, child; Window *children; guint nchildren; gint x,y; guint width, height; guint border_widthc, depthc; XQueryTree (dpy, w, &root, &parent, &children, &nchildren); if (children) XFree(children); XGetGeometry (dpy, w, &root, &x, &y, &width, &height, &border_widthc, &depthc); XTranslateCoordinates (dpy, w, root, 0, 0, &x, &y, &child); if (x_ret) *x_ret = x; if (y_ret) *y_ret = y; if (width_ret) *width_ret = width; if (height_ret) *height_ret = height; } static GdkDevicePrivate * gdk_input_device_new (XDeviceInfo *device, gint include_core) { GdkDevicePrivate *gdkdev; gchar *tmp_name; XAnyClassPtr class; gint i,j; gdkdev = g_new(GdkDevicePrivate,1); gdkdev->deviceid = device->id; if (device->name[0]) gdkdev->info.name = g_strdup (device->name); else /* XFree86 3.2 gives an empty name to the default core devices, (fixed in 3.2A) */ gdkdev->info.name = g_strdup ("pointer"); gdkdev->info.mode = GDK_MODE_DISABLED; /* Try to figure out what kind of device this is by its name - could invite a very, very, long list... Lowercase name for comparison purposes */ tmp_name = g_strdup (gdkdev->info.name); g_strdown (tmp_name); if (!strcmp (tmp_name, "pointer")) gdkdev->info.source = GDK_SOURCE_MOUSE; else if (!strcmp (tmp_name, "wacom") || !strcmp (tmp_name, "pen")) gdkdev->info.source = GDK_SOURCE_PEN; else if (!strcmp (tmp_name, "eraser")) gdkdev->info.source = GDK_SOURCE_ERASER; else if (!strcmp (tmp_name, "cursor")) gdkdev->info.source = GDK_SOURCE_CURSOR; else gdkdev->info.source = GDK_SOURCE_PEN; g_free(tmp_name); gdkdev->xdevice = NULL; /* step through the classes */ gdkdev->info.num_axes = 0; gdkdev->info.num_keys = 0; gdkdev->info.axes = NULL; gdkdev->info.keys = NULL; gdkdev->axes = 0; gdkdev->info.has_cursor = 0; gdkdev->needs_update = FALSE; gdkdev->claimed = FALSE; gdkdev->button_state = 0; class = device->inputclassinfo; for (i=0;inum_classes;i++) { switch (class->class) { case ButtonClass: break; case KeyClass: { XKeyInfo *xki = (XKeyInfo *)class; /* Hack to catch XFree86 3.3.1 bug. Other devices better * not have exactly 25 keys... */ if ((xki->min_keycode == 8) && (xki->max_keycode == 32)) { gdkdev->info.num_keys = 32; gdkdev->min_keycode = 1; } else { gdkdev->info.num_keys = xki->max_keycode - xki->min_keycode + 1; gdkdev->min_keycode = xki->min_keycode; } gdkdev->info.keys = g_new (GdkDeviceKey, gdkdev->info.num_keys); for (j=0; jinfo.num_keys; j++) { gdkdev->info.keys[j].keyval = 0; gdkdev->info.keys[j].modifiers = 0; } break; } case ValuatorClass: { XValuatorInfo *xvi = (XValuatorInfo *)class; gdkdev->info.num_axes = xvi->num_axes; gdkdev->axes = g_new (GdkAxisInfo, xvi->num_axes); gdkdev->info.axes = g_new0 (GdkDeviceAxis, xvi->num_axes); for (j=0;jnum_axes;j++) { gdkdev->axes[j].resolution = gdkdev->axes[j].xresolution = xvi->axes[j].resolution; gdkdev->axes[j].min_value = gdkdev->axes[j].xmin_value = xvi->axes[j].min_value; gdkdev->axes[j].max_value = gdkdev->axes[j].xmax_value = xvi->axes[j].max_value; gdkdev->info.axes[j].use = GDK_AXIS_IGNORE; } j=0; if (jnum_axes) gdk_device_set_axis_use (&gdkdev->info, j++, GDK_AXIS_X); if (jnum_axes) gdk_device_set_axis_use (&gdkdev->info, j++, GDK_AXIS_Y); if (jnum_axes) gdk_device_set_axis_use (&gdkdev->info, j++, GDK_AXIS_PRESSURE); if (jnum_axes) gdk_device_set_axis_use (&gdkdev->info, j++, GDK_AXIS_XTILT); if (jnum_axes) gdk_device_set_axis_use (&gdkdev->info, j++, GDK_AXIS_YTILT); if (jnum_axes) gdk_device_set_axis_use (&gdkdev->info, j++, GDK_AXIS_WHEEL); break; } } class = (XAnyClassPtr)(((char *)class) + class->length); } /* return NULL if no axes */ if (!gdkdev->info.num_axes || !gdkdev->axes || (!include_core && device->use == IsXPointer)) goto error; if (device->use != IsXPointer) { gdk_error_trap_push (); gdkdev->xdevice = XOpenDevice(gdk_display, gdkdev->deviceid); /* return NULL if device is not ready */ if (gdk_error_trap_pop ()) goto error; } gdkdev->buttonpress_type = 0; gdkdev->buttonrelease_type = 0; gdkdev->keypress_type = 0; gdkdev->keyrelease_type = 0; gdkdev->motionnotify_type = 0; gdkdev->proximityin_type = 0; gdkdev->proximityout_type = 0; gdkdev->changenotify_type = 0; return gdkdev; error: g_free (gdkdev->info.name); if (gdkdev->axes) g_free (gdkdev->axes); if (gdkdev->info.keys) g_free (gdkdev->info.keys); if (gdkdev->info.axes) g_free (gdkdev->info.axes); g_free (gdkdev); return NULL; } void gdk_input_common_find_events(GdkWindow *window, GdkDevicePrivate *gdkdev, gint mask, XEventClass *classes, int *num_classes) { gint i; XEventClass class; i = 0; /* We have to track press and release events in pairs to keep track of button state correctly and implement grabbing for the gxi support */ if (mask & GDK_BUTTON_PRESS_MASK || mask & GDK_BUTTON_RELEASE_MASK) { DeviceButtonPress (gdkdev->xdevice, gdkdev->buttonpress_type, class); if (class != 0) classes[i++] = class; DeviceButtonPressGrab (gdkdev->xdevice, 0, class); if (class != 0) classes[i++] = class; DeviceButtonRelease (gdkdev->xdevice, gdkdev->buttonrelease_type, class); if (class != 0) classes[i++] = class; } if (mask & GDK_POINTER_MOTION_MASK) { DeviceMotionNotify (gdkdev->xdevice, gdkdev->motionnotify_type, class); if (class != 0) classes[i++] = class; } else if (mask & (GDK_BUTTON1_MOTION_MASK | GDK_BUTTON2_MOTION_MASK | GDK_BUTTON3_MOTION_MASK | GDK_BUTTON_MOTION_MASK | GDK_POINTER_MOTION_HINT_MASK)) { /* Make sure gdkdev->motionnotify_type is set */ DeviceMotionNotify (gdkdev->xdevice, gdkdev->motionnotify_type, class); } if (mask & GDK_BUTTON1_MOTION_MASK) { DeviceButton1Motion (gdkdev->xdevice, 0, class); if (class != 0) classes[i++] = class; } if (mask & GDK_BUTTON2_MOTION_MASK) { DeviceButton2Motion (gdkdev->xdevice, 0, class); if (class != 0) classes[i++] = class; } if (mask & GDK_BUTTON3_MOTION_MASK) { DeviceButton3Motion (gdkdev->xdevice, 0, class); if (class != 0) classes[i++] = class; } if (mask & GDK_BUTTON_MOTION_MASK) { DeviceButtonMotion (gdkdev->xdevice, 0, class); if (class != 0) classes[i++] = class; } if (mask & GDK_POINTER_MOTION_HINT_MASK) { /* We'll get into trouble if the macros change, but at least we'll know about it, and we avoid warnings now */ DevicePointerMotionHint (gdkdev->xdevice, 0, class); if (class != 0) classes[i++] = class; } if (mask & GDK_KEY_PRESS_MASK) { DeviceKeyPress (gdkdev->xdevice, gdkdev->keypress_type, class); if (class != 0) classes[i++] = class; } if (mask & GDK_KEY_RELEASE_MASK) { DeviceKeyRelease (gdkdev->xdevice, gdkdev->keyrelease_type, class); if (class != 0) classes[i++] = class; } if (mask & GDK_PROXIMITY_IN_MASK) { ProximityIn (gdkdev->xdevice, gdkdev->proximityin_type, class); if (class != 0) classes[i++] = class; } if (mask & GDK_PROXIMITY_OUT_MASK) { ProximityOut (gdkdev->xdevice, gdkdev->proximityout_type, class); if (class != 0) classes[i++] = class; } *num_classes = i; } void gdk_input_common_select_events(GdkWindow *window, GdkDevicePrivate *gdkdev) { XEventClass classes[GDK_MAX_DEVICE_CLASSES]; gint num_classes; if (gdkdev->info.mode == GDK_MODE_DISABLED) gdk_input_common_find_events(window, gdkdev, 0, classes, &num_classes); else gdk_input_common_find_events(window, gdkdev, ((GdkWindowObject *)window)->extension_events, classes, &num_classes); XSelectExtensionEvent (gdk_display, GDK_WINDOW_XWINDOW(window), classes, num_classes); } gint gdk_input_common_init(gint include_core) { char **extensions; XDeviceInfo *devices; int num_devices; int num_extensions, loop; Display *display = gdk_display; /* Init XInput extension */ extensions = XListExtensions(display, &num_extensions); for (loop = 0; loop < num_extensions && (strcmp(extensions[loop], "XInputExtension") != 0); loop++); XFreeExtensionList(extensions); gdk_input_devices = NULL; if (loop < num_extensions) { /* XInput extension found */ devices = XListInputDevices(display, &num_devices); for(loop=0; loopwindow)->impl); for (i=0; iinfo.num_axes; i++) { switch (gdkdev->info.axes[i].use) { case GDK_AXIS_X: x_axis = i; break; case GDK_AXIS_Y: y_axis = i; break; default: break; } } device_width = gdkdev->axes[x_axis].max_value - gdkdev->axes[x_axis].min_value; device_height = gdkdev->axes[y_axis].max_value - gdkdev->axes[y_axis].min_value; if (gdkdev->info.mode == GDK_MODE_SCREEN) { x_scale = gdk_screen_width() / device_width; y_scale = gdk_screen_height() / device_height; x_offset = - input_window->root_x; y_offset = - input_window->root_y; } else /* GDK_MODE_WINDOW */ { double device_aspect = (device_height*gdkdev->axes[y_axis].resolution) / (device_width*gdkdev->axes[x_axis].resolution); if (device_aspect * impl->width >= impl->height) { /* device taller than window */ x_scale = impl->width / device_width; y_scale = (x_scale * gdkdev->axes[x_axis].resolution) / gdkdev->axes[y_axis].resolution; x_offset = 0; y_offset = -(device_height * y_scale - impl->height)/2; } else { /* window taller than device */ y_scale = impl->height / device_height; x_scale = (y_scale * gdkdev->axes[y_axis].resolution) / gdkdev->axes[x_axis].resolution; y_offset = 0; x_offset = - (device_width * x_scale - impl->width)/2; } } for (i=0; iinfo.num_axes; i++) { switch (gdkdev->info.axes[i].use) { case GDK_AXIS_X: axis_out[i] = x_offset + x_scale*axis_data[x_axis]; if (x_out) *x_out = axis_out[i]; break; case GDK_AXIS_Y: axis_out[i] = y_offset + y_scale*axis_data[y_axis]; if (y_out) *y_out = axis_out[i]; break; default: axis_out[i] = (gdkdev->info.axes[i].max * (axis_data[i] - gdkdev->axes[i].min_value) + gdkdev->info.axes[i].min * (gdkdev->axes[i].max_value - axis_data[i])) / (gdkdev->axes[i].max_value - gdkdev->axes[i].min_value); break; } } } /* combine the state of the core device and the device state * into one - for now we do this in a simple-minded manner - * we just take the keyboard portion of the core device and * the button portion (all of?) the device state. * Any button remapping should go on here. */ static guint gdk_input_translate_state(guint state, guint device_state) { return device_state | (state & 0xFF); } gint gdk_input_common_other_event (GdkEvent *event, XEvent *xevent, GdkInputWindow *input_window, GdkDevicePrivate *gdkdev) { if ((xevent->type == gdkdev->buttonpress_type) || (xevent->type == gdkdev->buttonrelease_type)) { XDeviceButtonEvent *xdbe = (XDeviceButtonEvent *)(xevent); if (xdbe->type == gdkdev->buttonpress_type) { event->button.type = GDK_BUTTON_PRESS; gdkdev->button_state |= 1 << xdbe->button; } else { event->button.type = GDK_BUTTON_RELEASE; gdkdev->button_state &= ~(1 << xdbe->button); } event->button.device = &gdkdev->info; event->button.window = input_window->window; event->button.time = xdbe->time; event->button.axes = g_new (gdouble, gdkdev->info.num_axes); gdk_input_translate_coordinates (gdkdev,input_window, xdbe->axis_data, event->button.axes, &event->button.x,&event->button.y); event->button.state = gdk_input_translate_state(xdbe->state,xdbe->device_state); event->button.button = xdbe->button; GDK_NOTE (EVENTS, g_print ("button %s:\t\twindow: %ld device: %ld x,y: %f %f button: %d\n", (event->button.type == GDK_BUTTON_PRESS) ? "press" : "release", xdbe->window, xdbe->deviceid, event->button.x, event->button.y, xdbe->button)); return TRUE; } if ((xevent->type == gdkdev->keypress_type) || (xevent->type == gdkdev->keyrelease_type)) { XDeviceKeyEvent *xdke = (XDeviceKeyEvent *)(xevent); GDK_NOTE (EVENTS, g_print ("device key %s:\twindow: %ld device: %ld keycode: %d\n", (event->key.type == GDK_KEY_PRESS) ? "press" : "release", xdke->window, xdke->deviceid, xdke->keycode)); if (xdke->keycode < gdkdev->min_keycode || xdke->keycode >= gdkdev->min_keycode + gdkdev->info.num_keys) { g_warning ("Invalid device key code received"); return FALSE; } event->key.keyval = gdkdev->info.keys[xdke->keycode - gdkdev->min_keycode].keyval; if (event->key.keyval == 0) { GDK_NOTE (EVENTS, g_print ("\t\ttranslation - NONE\n")); return FALSE; } event->key.type = (xdke->type == gdkdev->keypress_type) ? GDK_KEY_PRESS : GDK_KEY_RELEASE; event->key.window = input_window->window; event->key.time = xdke->time; event->key.state = gdk_input_translate_state(xdke->state, xdke->device_state) | gdkdev->info.keys[xdke->keycode - gdkdev->min_keycode].modifiers; /* Add a string translation for the key event */ if ((event->key.keyval >= 0x20) && (event->key.keyval <= 0xFF)) { event->key.length = 1; event->key.string = g_new (gchar, 2); event->key.string[0] = (gchar)event->key.keyval; event->key.string[1] = 0; } else { event->key.length = 0; event->key.string = g_new0 (gchar, 1); } GDK_NOTE (EVENTS, g_print ("\t\ttranslation - keyval: %d modifiers: %#x\n", event->key.keyval, event->key.state)); return TRUE; } if (xevent->type == gdkdev->motionnotify_type) { XDeviceMotionEvent *xdme = (XDeviceMotionEvent *)(xevent); event->motion.device = &gdkdev->info; event->motion.axes = g_new (gdouble, gdkdev->info.num_axes); gdk_input_translate_coordinates(gdkdev,input_window,xdme->axis_data, event->motion.axes, &event->motion.x,&event->motion.y); event->motion.type = GDK_MOTION_NOTIFY; event->motion.window = input_window->window; event->motion.time = xdme->time; event->motion.state = gdk_input_translate_state(xdme->state, xdme->device_state); event->motion.is_hint = xdme->is_hint; GDK_NOTE (EVENTS, g_print ("motion notify:\t\twindow: %ld device: %ld x,y: %f %f state %#4x hint: %s\n", xdme->window, xdme->deviceid, event->motion.x, event->motion.y, event->motion.state, (xdme->is_hint) ? "true" : "false")); return TRUE; } if (xevent->type == gdkdev->proximityin_type || xevent->type == gdkdev->proximityout_type) { XProximityNotifyEvent *xpne = (XProximityNotifyEvent *)(xevent); event->proximity.device = &gdkdev->info; event->proximity.type = (xevent->type == gdkdev->proximityin_type)? GDK_PROXIMITY_IN:GDK_PROXIMITY_OUT; event->proximity.window = input_window->window; event->proximity.time = xpne->time; return TRUE; } return -1; /* wasn't one of our event types */ } gboolean _gdk_device_get_history (GdkDevice *device, GdkWindow *window, guint32 start, guint32 stop, GdkTimeCoord ***events, gint *n_events) { GdkTimeCoord **coords; XDeviceTimeCoord *device_coords; GdkInputWindow *input_window; GdkDevicePrivate *gdkdev; gint mode_return; gint axis_count_return; gint i; gdkdev = (GdkDevicePrivate *)device; input_window = gdk_input_window_find (window); g_return_val_if_fail (input_window != NULL, FALSE); device_coords = XGetDeviceMotionEvents (gdk_display, gdkdev->xdevice, start, stop, n_events, &mode_return, &axis_count_return); if (device_coords) { coords = _gdk_device_allocate_history (device, *n_events); for (i=0; i<*n_events; i++) gdk_input_translate_coordinates (gdkdev, input_window, device_coords[i].data, coords[i]->axes, NULL, NULL); XFreeDeviceMotionEvents (device_coords); *events = coords; return TRUE; } else { *events = NULL; *n_events = 0; return FALSE; } } void gdk_device_get_state (GdkDevice *device, GdkWindow *window, gdouble *axes, GdkModifierType *mask) { gint i; g_return_if_fail (device != NULL); g_return_if_fail (GDK_IS_WINDOW (window)); if (GDK_IS_CORE (device)) { gint x_int, y_int; gdk_window_get_pointer (window, &x_int, &y_int, mask); if (axes) { axes[0] = x_int; axes[1] = y_int; } } else { GdkDevicePrivate *gdkdev; GdkInputWindow *input_window; XDeviceState *state; XInputClass *input_class; if (mask) gdk_window_get_pointer (window, NULL, NULL, mask); gdkdev = (GdkDevicePrivate *)device; input_window = gdk_input_window_find (window); g_return_if_fail (input_window != NULL); state = XQueryDeviceState (gdk_display, gdkdev->xdevice); input_class = state->data; for (i=0; inum_classes; i++) { switch (input_class->class) { case ValuatorClass: if (axes) gdk_input_translate_coordinates (gdkdev, input_window, ((XValuatorState *)input_class)->valuators, axes, NULL, NULL); break; case ButtonClass: if (mask) { *mask &= 0xFF; if (((XButtonState *)input_class)->num_buttons > 0) *mask |= ((XButtonState *)input_class)->buttons[0] << 7; /* GDK_BUTTON1_MASK = 1 << 8, and button n is stored * in bit 1<<(n%8) in byte n/8. n = 1,2,... */ } break; } input_class = (XInputClass *)(((char *)input_class)+input_class->length); } XFreeDeviceState (state); } }