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gri3-wm/src/floating.c

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#undef I3__FILE__
#define I3__FILE__ "floating.c"
/*
* vim:ts=4:sw=4:expandtab
*
* i3 - an improved dynamic tiling window manager
* © 2009-2011 Michael Stapelberg and contributors (see also: LICENSE)
*
* floating.c: Floating windows.
*
*/
#include "all.h"
extern xcb_connection_t *conn;
/*
* Calculates sum of heights and sum of widths of all currently active outputs
*
*/
static Rect total_outputs_dimensions(void) {
Output *output;
/* Use Rect to encapsulate dimensions, ignoring x/y */
Rect outputs_dimensions = {0, 0, 0, 0};
TAILQ_FOREACH(output, &outputs, outputs) {
outputs_dimensions.height += output->rect.height;
outputs_dimensions.width += output->rect.width;
}
return outputs_dimensions;
}
/**
* Called when a floating window is created or resized.
* This function resizes the window if its size is higher or lower than the
* configured maximum/minimum size, respectively.
*
*/
void floating_check_size(Con *floating_con) {
/* Define reasonable minimal and maximal sizes for floating windows */
const int floating_sane_min_height = 50;
const int floating_sane_min_width = 75;
Rect floating_sane_max_dimensions;
Con *focused_con = con_descend_focused(floating_con);
/* obey size increments */
if (focused_con->height_increment || focused_con->width_increment) {
Rect border_rect = con_border_style_rect(focused_con);
/* We have to do the opposite calculations that render_con() do
* to get the exact size we want. */
border_rect.width = -border_rect.width;
border_rect.width += 2 * focused_con->border_width;
border_rect.height = -border_rect.height;
border_rect.height += 2 * focused_con->border_width;
if (con_border_style(focused_con) == BS_NORMAL)
border_rect.height += render_deco_height();
if (focused_con->height_increment &&
floating_con->rect.height >= focused_con->base_height + border_rect.height) {
floating_con->rect.height -= focused_con->base_height + border_rect.height;
floating_con->rect.height -= floating_con->rect.height % focused_con->height_increment;
floating_con->rect.height += focused_con->base_height + border_rect.height;
}
if (focused_con->width_increment &&
floating_con->rect.width >= focused_con->base_width + border_rect.width) {
floating_con->rect.width -= focused_con->base_width + border_rect.width;
floating_con->rect.width -= floating_con->rect.width % focused_con->width_increment;
floating_con->rect.width += focused_con->base_width + border_rect.width;
}
}
/* Unless user requests otherwise (-1), ensure width/height do not exceed
* configured maxima or, if unconfigured, limit to combined width of all
* outputs */
if (config.floating_minimum_height != -1) {
if (config.floating_minimum_height == 0)
floating_con->rect.height = max(floating_con->rect.height, floating_sane_min_height);
else
floating_con->rect.height = max(floating_con->rect.height, config.floating_minimum_height);
}
if (config.floating_minimum_width != -1) {
if (config.floating_minimum_width == 0)
floating_con->rect.width = max(floating_con->rect.width, floating_sane_min_width);
else
floating_con->rect.width = max(floating_con->rect.width, config.floating_minimum_width);
}
/* Unless user requests otherwise (-1), raise the width/height to
* reasonable minimum dimensions */
floating_sane_max_dimensions = total_outputs_dimensions();
if (config.floating_maximum_height != -1) {
if (config.floating_maximum_height == 0)
floating_con->rect.height = min(floating_con->rect.height, floating_sane_max_dimensions.height);
else
floating_con->rect.height = min(floating_con->rect.height, config.floating_maximum_height);
}
if (config.floating_maximum_width != -1) {
if (config.floating_maximum_width == 0)
floating_con->rect.width = min(floating_con->rect.width, floating_sane_max_dimensions.width);
else
floating_con->rect.width = min(floating_con->rect.width, config.floating_maximum_width);
}
}
void floating_enable(Con *con, bool automatic) {
bool set_focus = (con == focused);
if (con->parent && con->parent->type == CT_DOCKAREA) {
LOG("Container is a dock window, not enabling floating mode.\n");
return;
}
if (con_is_floating(con)) {
LOG("Container is already in floating mode, not doing anything.\n");
return;
}
/* 1: If the container is a workspace container, we need to create a new
* split-container with the same layout and make that one floating. We
* cannot touch the workspace container itself because floating containers
* are children of the workspace. */
if (con->type == CT_WORKSPACE) {
LOG("This is a workspace, creating new container around content\n");
if (con_num_children(con) == 0) {
LOG("Workspace is empty, aborting\n");
return;
}
/* TODO: refactor this with src/con.c:con_set_layout */
Con *new = con_new(NULL, NULL);
new->parent = con;
new->layout = con->layout;
/* since the new container will be set into floating mode directly
* afterwards, we need to copy the workspace rect. */
memcpy(&(new->rect), &(con->rect), sizeof(Rect));
Con *old_focused = TAILQ_FIRST(&(con->focus_head));
if (old_focused == TAILQ_END(&(con->focus_head)))
old_focused = NULL;
/* 4: move the existing cons of this workspace below the new con */
DLOG("Moving cons\n");
Con *child;
while (!TAILQ_EMPTY(&(con->nodes_head))) {
child = TAILQ_FIRST(&(con->nodes_head));
con_detach(child);
con_attach(child, new, true);
}
/* 4: attach the new split container to the workspace */
DLOG("Attaching new split to ws\n");
con_attach(new, con, false);
if (old_focused)
con_focus(old_focused);
con = new;
set_focus = false;
}
/* 1: detach the container from its parent */
/* TODO: refactor this with tree_close() */
TAILQ_REMOVE(&(con->parent->nodes_head), con, nodes);
TAILQ_REMOVE(&(con->parent->focus_head), con, focused);
con_fix_percent(con->parent);
/* 2: create a new container to render the decoration on, add
* it as a floating window to the workspace */
Con *nc = con_new(NULL, NULL);
/* we need to set the parent afterwards instead of passing it as an
* argument to con_new() because nc would be inserted into the tiling layer
* otherwise. */
Con *ws = con_get_workspace(con);
nc->parent = ws;
nc->type = CT_FLOATING_CON;
nc->layout = L_SPLITH;
/* We insert nc already, even though its rect is not yet calculated. This
* is necessary because otherwise the workspace might be empty (and get
* closed in tree_close()) even though its not. */
TAILQ_INSERT_TAIL(&(ws->floating_head), nc, floating_windows);
TAILQ_INSERT_TAIL(&(ws->focus_head), nc, focused);
/* check if the parent container is empty and close it if so */
if ((con->parent->type == CT_CON || con->parent->type == CT_FLOATING_CON) &&
con_num_children(con->parent) == 0) {
DLOG("Old container empty after setting this child to floating, closing\n");
tree_close(con->parent, DONT_KILL_WINDOW, false, false);
}
char *name;
sasprintf(&name, "[i3 con] floatingcon around %p", con);
x_set_name(nc, name);
free(name);
/* find the height for the decorations */
int deco_height = render_deco_height();
DLOG("Original rect: (%d, %d) with %d x %d\n", con->rect.x, con->rect.y, con->rect.width, con->rect.height);
DLOG("Geometry = (%d, %d) with %d x %d\n", con->geometry.x, con->geometry.y, con->geometry.width, con->geometry.height);
Rect zero = { 0, 0, 0, 0 };
nc->rect = con->geometry;
/* If the geometry was not set (split containers), we need to determine a
* sensible one by combining the geometry of all children */
if (memcmp(&(nc->rect), &zero, sizeof(Rect)) == 0) {
DLOG("Geometry not set, combining children\n");
Con *child;
TAILQ_FOREACH(child, &(con->nodes_head), nodes) {
DLOG("child geometry: %d x %d\n", child->geometry.width, child->geometry.height);
nc->rect.width += child->geometry.width;
nc->rect.height = max(nc->rect.height, child->geometry.height);
}
}
floating_check_size(nc);
/* 3: attach the child to the new parent container. We need to do this
* because con_border_style_rect() needs to access con->parent. */
con->parent = nc;
con->percent = 1.0;
con->floating = FLOATING_USER_ON;
/* 4: set the border style as specified with new_float */
if (automatic)
con->border_style = config.default_floating_border;
/* Add pixels for the decoration. */
Rect border_style_rect = con_border_style_rect(con);
nc->rect.height -= border_style_rect.height;
nc->rect.width -= border_style_rect.width;
/* Add some more pixels for the title bar */
if(con_border_style(con) == BS_NORMAL)
nc->rect.height += deco_height;
/* Honor the X11 border */
nc->rect.height += con->border_width * 2;
nc->rect.width += con->border_width * 2;
/* Some clients (like GIMPs color picker window) get mapped
* to (0, 0), so we push them to a reasonable position
* (centered over their leader) */
if (nc->rect.x == 0 && nc->rect.y == 0) {
Con *leader;
if (con->window && con->window->leader != XCB_NONE &&
(leader = con_by_window_id(con->window->leader)) != NULL) {
DLOG("Centering above leader\n");
nc->rect.x = leader->rect.x + (leader->rect.width / 2) - (nc->rect.width / 2);
nc->rect.y = leader->rect.y + (leader->rect.height / 2) - (nc->rect.height / 2);
} else {
/* center the window on workspace as fallback */
nc->rect.x = ws->rect.x + (ws->rect.width / 2) - (nc->rect.width / 2);
nc->rect.y = ws->rect.y + (ws->rect.height / 2) - (nc->rect.height / 2);
}
}
/* Sanity check: Are the coordinates on the appropriate output? If not, we
* need to change them */
Output *current_output = get_output_containing(nc->rect.x +
(nc->rect.width / 2), nc->rect.y + (nc->rect.height / 2));
Con *correct_output = con_get_output(ws);
if (!current_output || current_output->con != correct_output) {
DLOG("This floating window is on the wrong output, fixing coordinates (currently (%d, %d))\n",
nc->rect.x, nc->rect.y);
/* If moving from one output to another, keep the relative position
* consistent (e.g. a centered dialog will remain centered). */
if (current_output)
floating_fix_coordinates(nc, &current_output->con->rect, &correct_output->rect);
else {
nc->rect.x = correct_output->rect.x;
nc->rect.y = correct_output->rect.y;
}
}
DLOG("Floating rect: (%d, %d) with %d x %d\n", nc->rect.x, nc->rect.y, nc->rect.width, nc->rect.height);
/* 5: Subtract the deco_height in order to make the floating window appear
* at precisely the position it specified in its original geometry (which
* is what applications might remember). */
deco_height = (con->border_style == BS_NORMAL ? render_deco_height() : 0);
nc->rect.y -= deco_height;
DLOG("Corrected y = %d (deco_height = %d)\n", nc->rect.y, deco_height);
TAILQ_INSERT_TAIL(&(nc->nodes_head), con, nodes);
TAILQ_INSERT_TAIL(&(nc->focus_head), con, focused);
/* render the cons to get initial window_rect correct */
render_con(nc, false);
render_con(con, false);
if (set_focus)
con_focus(con);
/* Check if we need to re-assign it to a different workspace because of its
* coordinates and exit if that was done successfully. */
if (floating_maybe_reassign_ws(nc))
return;
/* Sanitize coordinates: Check if they are on any output */
if (get_output_containing(nc->rect.x, nc->rect.y) != NULL)
return;
ELOG("No output found at destination coordinates, centering floating window on current ws\n");
nc->rect.x = ws->rect.x + (ws->rect.width / 2) - (nc->rect.width / 2);
nc->rect.y = ws->rect.y + (ws->rect.height / 2) - (nc->rect.height / 2);
}
void floating_disable(Con *con, bool automatic) {
if (!con_is_floating(con)) {
LOG("Container isn't floating, not doing anything.\n");
return;
}
const bool set_focus = (con == focused);
Con *ws = con_get_workspace(con);
/* 1: detach from parent container */
TAILQ_REMOVE(&(con->parent->nodes_head), con, nodes);
TAILQ_REMOVE(&(con->parent->focus_head), con, focused);
/* 2: kill parent container */
TAILQ_REMOVE(&(con->parent->parent->floating_head), con->parent, floating_windows);
TAILQ_REMOVE(&(con->parent->parent->focus_head), con->parent, focused);
tree_close(con->parent, DONT_KILL_WINDOW, true, false);
/* 3: re-attach to the parent of the currently focused con on the workspace
* this floating con was on */
Con *focused = con_descend_tiling_focused(ws);
/* if there is no other container on this workspace, focused will be the
* workspace itself */
if (focused->type == CT_WORKSPACE)
con->parent = focused;
else con->parent = focused->parent;
/* con_fix_percent will adjust the percent value */
con->percent = 0.0;
con->floating = FLOATING_USER_OFF;
con_attach(con, con->parent, false);
con_fix_percent(con->parent);
if (set_focus)
con_focus(con);
}
/*
* Toggles floating mode for the given container.
*
* If the automatic flag is set to true, this was an automatic update by a change of the
* window class from the application which can be overwritten by the user.
*
*/
void toggle_floating_mode(Con *con, bool automatic) {
/* see if the client is already floating */
if (con_is_floating(con)) {
LOG("already floating, re-setting to tiling\n");
floating_disable(con, automatic);
return;
}
floating_enable(con, automatic);
}
/*
* Raises the given container in the list of floating containers
*
*/
void floating_raise_con(Con *con) {
DLOG("Raising floating con %p / %s\n", con, con->name);
TAILQ_REMOVE(&(con->parent->floating_head), con, floating_windows);
TAILQ_INSERT_TAIL(&(con->parent->floating_head), con, floating_windows);
}
/*
* Checks if cons coordinates are within its workspace and re-assigns it to
* the actual workspace if not.
*
*/
bool floating_maybe_reassign_ws(Con *con) {
Output *output = get_output_containing(
con->rect.x + (con->rect.width / 2),
con->rect.y + (con->rect.height / 2));
if (!output) {
ELOG("No output found at destination coordinates?\n");
return false;
}
if (con_get_output(con) == output->con) {
DLOG("still the same ws\n");
return false;
}
DLOG("Need to re-assign!\n");
Con *content = output_get_content(output->con);
Con *ws = TAILQ_FIRST(&(content->focus_head));
DLOG("Moving con %p / %s to workspace %p / %s\n", con, con->name, ws, ws->name);
con_move_to_workspace(con, ws, false, true);
con_focus(con_descend_focused(con));
return true;
}
DRAGGING_CB(drag_window_callback) {
const struct xcb_button_press_event_t *event = extra;
/* Reposition the client correctly while moving */
con->rect.x = old_rect->x + (new_x - event->root_x);
con->rect.y = old_rect->y + (new_y - event->root_y);
render_con(con, false);
x_push_node(con);
xcb_flush(conn);
/* Check if we cross workspace boundaries while moving */
if (!floating_maybe_reassign_ws(con))
return;
/* Ensure not to warp the pointer while dragging */
x_set_warp_to(NULL);
tree_render();
}
/*
* Called when the user clicked on the titlebar of a floating window.
* Calls the drag_pointer function with the drag_window callback
*
*/
void floating_drag_window(Con *con, const xcb_button_press_event_t *event) {
DLOG("floating_drag_window\n");
/* Push changes before dragging, so that the window gets raised now and not
* after the user releases the mouse button */
tree_render();
/* Store the initial rect in case of user revert/cancel */
Rect initial_rect = con->rect;
/* Drag the window */
drag_result_t drag_result = drag_pointer(con, event, XCB_NONE, BORDER_TOP /* irrelevant */, XCURSOR_CURSOR_MOVE, drag_window_callback, event);
/* If the user cancelled, undo the changes. */
if (drag_result == DRAG_REVERT)
floating_reposition(con, initial_rect);
/* If this is a scratchpad window, don't auto center it from now on. */
if (con->scratchpad_state == SCRATCHPAD_FRESH)
con->scratchpad_state = SCRATCHPAD_CHANGED;
tree_render();
}
/*
* This is an ugly data structure which we need because there is no standard
* way of having nested functions (only available as a gcc extension at the
* moment, clang doesnt support it) or blocks (only available as a clang
* extension and only on Mac OS X systems at the moment).
*
*/
struct resize_window_callback_params {
const border_t corner;
const bool proportional;
const xcb_button_press_event_t *event;
};
DRAGGING_CB(resize_window_callback) {
const struct resize_window_callback_params *params = extra;
const xcb_button_press_event_t *event = params->event;
border_t corner = params->corner;
int32_t dest_x = con->rect.x;
int32_t dest_y = con->rect.y;
uint32_t dest_width;
uint32_t dest_height;
double ratio = (double) old_rect->width / old_rect->height;
/* First guess: We resize by exactly the amount the mouse moved,
* taking into account in which corner the client was grabbed */
if (corner & BORDER_LEFT)
dest_width = old_rect->width - (new_x - event->root_x);
else dest_width = old_rect->width + (new_x - event->root_x);
if (corner & BORDER_TOP)
dest_height = old_rect->height - (new_y - event->root_y);
else dest_height = old_rect->height + (new_y - event->root_y);
/* User wants to keep proportions, so we may have to adjust our values */
if (params->proportional) {
dest_width = max(dest_width, (int) (dest_height * ratio));
dest_height = max(dest_height, (int) (dest_width / ratio));
}
con->rect = (Rect) { dest_x, dest_y, dest_width, dest_height };
/* Obey window size */
floating_check_size(con);
/* If not the lower right corner is grabbed, we must also reposition
* the client by exactly the amount we resized it */
if (corner & BORDER_LEFT)
dest_x = old_rect->x + (old_rect->width - con->rect.width);
if (corner & BORDER_TOP)
dest_y = old_rect->y + (old_rect->height - con->rect.height);
con->rect.x = dest_x;
con->rect.y = dest_y;
/* TODO: dont re-render the whole tree just because we change
* coordinates of a floating window */
tree_render();
x_push_changes(croot);
}
/*
* Called when the user clicked on a floating window while holding the
* floating_modifier and the right mouse button.
* Calls the drag_pointer function with the resize_window callback
*
*/
void floating_resize_window(Con *con, const bool proportional,
const xcb_button_press_event_t *event) {
DLOG("floating_resize_window\n");
/* corner saves the nearest corner to the original click. It contains
* a bitmask of the nearest borders (BORDER_LEFT, BORDER_RIGHT, …) */
border_t corner = 0;
if (event->event_x <= (int16_t)(con->rect.width / 2))
corner |= BORDER_LEFT;
else corner |= BORDER_RIGHT;
int cursor = 0;
if (event->event_y <= (int16_t)(con->rect.height / 2)) {
corner |= BORDER_TOP;
cursor = (corner & BORDER_LEFT) ?
XCURSOR_CURSOR_TOP_LEFT_CORNER : XCURSOR_CURSOR_TOP_RIGHT_CORNER;
}
else {
corner |= BORDER_BOTTOM;
cursor = (corner & BORDER_LEFT) ?
XCURSOR_CURSOR_BOTTOM_LEFT_CORNER : XCURSOR_CURSOR_BOTTOM_RIGHT_CORNER;
}
struct resize_window_callback_params params = { corner, proportional, event };
/* get the initial rect in case of revert/cancel */
Rect initial_rect = con->rect;
drag_result_t drag_result = drag_pointer(con, event, XCB_NONE, BORDER_TOP /* irrelevant */, cursor, resize_window_callback, &params);
/* If the user cancels, undo the resize */
if (drag_result == DRAG_REVERT)
floating_reposition(con, initial_rect);
/* If this is a scratchpad window, don't auto center it from now on. */
if (con->scratchpad_state == SCRATCHPAD_FRESH)
con->scratchpad_state = SCRATCHPAD_CHANGED;
}
/* As endorsed by “ASSOCIATING CUSTOM DATA WITH A WATCHER” in ev(3) */
struct drag_x11_cb {
ev_check check;
/* Whether this modal event loop should be exited and with which result. */
drag_result_t result;
/* The container that is being dragged or resized, or NULL if this is a
* drag of the resize handle. */
Con *con;
/* The dimensions of con when the loop was started. */
Rect old_rect;
/* The callback to invoke after every pointer movement. */
callback_t callback;
/* User data pointer for callback. */
const void *extra;
};
static void xcb_drag_check_cb(EV_P_ ev_check *w, int revents) {
struct drag_x11_cb *dragloop = (struct drag_x11_cb*)w;
xcb_motion_notify_event_t *last_motion_notify = NULL;
xcb_generic_event_t *event;
while ((event = xcb_poll_for_event(conn)) != NULL) {
if (event->response_type == 0) {
xcb_generic_error_t *error = (xcb_generic_error_t*)event;
DLOG("X11 Error received (probably harmless)! sequence 0x%x, error_code = %d\n",
error->sequence, error->error_code);
free(event);
continue;
}
/* Strip off the highest bit (set if the event is generated) */
int type = (event->response_type & 0x7F);
switch (type) {
case XCB_BUTTON_RELEASE:
dragloop->result = DRAG_SUCCESS;
break;
case XCB_KEY_PRESS:
DLOG("A key was pressed during drag, reverting changes.");
dragloop->result = DRAG_REVERT;
handle_event(type, event);
break;
case XCB_UNMAP_NOTIFY: {
xcb_unmap_notify_event_t *unmap_event = (xcb_unmap_notify_event_t*)event;
Con *con = con_by_window_id(unmap_event->window);
if (con != NULL) {
DLOG("UnmapNotify for window 0x%08x (container %p)\n", unmap_event->window, con);
if (con_get_workspace(con) == con_get_workspace(focused)) {
DLOG("UnmapNotify for a managed window on the current workspace, aborting\n");
dragloop->result = DRAG_ABORT;
}
}
handle_event(type, event);
break;
}
case XCB_MOTION_NOTIFY:
/* motion_notify events are saved for later */
FREE(last_motion_notify);
last_motion_notify = (xcb_motion_notify_event_t*)event;
break;
default:
DLOG("Passing to original handler\n");
handle_event(type, event);
break;
}
if (last_motion_notify != (xcb_motion_notify_event_t*)event)
free(event);
if (dragloop->result != DRAGGING)
return;
}
if (last_motion_notify == NULL)
return;
dragloop->callback(
dragloop->con,
&(dragloop->old_rect),
last_motion_notify->root_x,
last_motion_notify->root_y,
dragloop->extra);
free(last_motion_notify);
}
/*
* This function grabs your pointer and keyboard and lets you drag stuff around
* (borders). Every time you move your mouse, an XCB_MOTION_NOTIFY event will
* be received and the given callback will be called with the parameters
* specified (client, border on which the click originally was), the original
* rect of the client, the event and the new coordinates (x, y).
*
*/
drag_result_t drag_pointer(Con *con, const xcb_button_press_event_t *event, xcb_window_t
confine_to, border_t border, int cursor, callback_t callback, const void *extra)
{
xcb_cursor_t xcursor = (cursor && xcursor_supported) ?
xcursor_get_cursor(cursor) : XCB_NONE;
/* Grab the pointer */
xcb_grab_pointer_cookie_t cookie;
xcb_grab_pointer_reply_t *reply;
cookie = xcb_grab_pointer(conn,
false, /* get all pointer events specified by the following mask */
root, /* grab the root window */
XCB_EVENT_MASK_BUTTON_RELEASE | XCB_EVENT_MASK_POINTER_MOTION, /* which events to let through */
XCB_GRAB_MODE_ASYNC, /* pointer events should continue as normal */
XCB_GRAB_MODE_ASYNC, /* keyboard mode */
confine_to, /* confine_to = in which window should the cursor stay */
xcursor, /* possibly display a special cursor */
XCB_CURRENT_TIME);
if ((reply = xcb_grab_pointer_reply(conn, cookie, NULL)) == NULL) {
ELOG("Could not grab pointer\n");
return DRAG_ABORT;
}
free(reply);
/* Grab the keyboard */
xcb_grab_keyboard_cookie_t keyb_cookie;
xcb_grab_keyboard_reply_t *keyb_reply;
keyb_cookie = xcb_grab_keyboard(conn,
false, /* get all keyboard events */
root, /* grab the root window */
XCB_CURRENT_TIME,
XCB_GRAB_MODE_ASYNC, /* continue processing pointer events as normal */
XCB_GRAB_MODE_ASYNC /* keyboard mode */
);
if ((keyb_reply = xcb_grab_keyboard_reply(conn, keyb_cookie, NULL)) == NULL) {
ELOG("Could not grab keyboard\n");
return DRAG_ABORT;
}
free(keyb_reply);
/* Go into our own event loop */
struct drag_x11_cb loop = {
.result = DRAGGING,
.con = con,
.callback = callback,
.extra = extra,
};
if (con)
loop.old_rect = con->rect;
ev_check_init(&loop.check, xcb_drag_check_cb);
main_set_x11_cb(false);
ev_check_start(main_loop, &loop.check);
while (loop.result == DRAGGING)
ev_run(main_loop, EVRUN_ONCE);
ev_check_stop(main_loop, &loop.check);
main_set_x11_cb(true);
xcb_ungrab_keyboard(conn, XCB_CURRENT_TIME);
xcb_ungrab_pointer(conn, XCB_CURRENT_TIME);
xcb_flush(conn);
return loop.result;
}
/*
* Repositions the CT_FLOATING_CON to have the coordinates specified by
* newrect, but only if the coordinates are not out-of-bounds. Also reassigns
* the floating con to a different workspace if this move was across different
* outputs.
*
*/
void floating_reposition(Con *con, Rect newrect) {
/* Sanity check: Are the new coordinates on any output? If not, we
* ignore that request. */
if (!contained_by_output(newrect)) {
ELOG("No output found at destination coordinates. Not repositioning.\n");
return;
}
con->rect = newrect;
floating_maybe_reassign_ws(con);
/* If this is a scratchpad window, don't auto center it from now on. */
if (con->scratchpad_state == SCRATCHPAD_FRESH)
con->scratchpad_state = SCRATCHPAD_CHANGED;
tree_render();
}
/*
* Fixes the coordinates of the floating window whenever the window gets
* reassigned to a different output (or when the outputs rect changes).
*
*/
void floating_fix_coordinates(Con *con, Rect *old_rect, Rect *new_rect) {
DLOG("Fixing coordinates of floating window %p (rect (%d, %d), %d x %d)\n",
con, con->rect.x, con->rect.y, con->rect.width, con->rect.height);
DLOG("old_rect = (%d, %d), %d x %d\n",
old_rect->x, old_rect->y, old_rect->width, old_rect->height);
DLOG("new_rect = (%d, %d), %d x %d\n",
new_rect->x, new_rect->y, new_rect->width, new_rect->height);
/* First we get the x/y coordinates relative to the x/y coordinates
* of the output on which the window is on */
int32_t rel_x = con->rect.x - old_rect->x + (int32_t)(con->rect.width / 2);
int32_t rel_y = con->rect.y - old_rect->y + (int32_t)(con->rect.height / 2);
/* Then we calculate a fraction, for example 0.63 for a window
* which is at y = 1212 of a 1920 px high output */
DLOG("rel_x = %d, rel_y = %d, fraction_x = %f, fraction_y = %f, output->w = %d, output->h = %d\n",
rel_x, rel_y, (double)rel_x / old_rect->width, (double)rel_y / old_rect->height,
old_rect->width, old_rect->height);
/* Here we have to multiply at first. Or we will lose precision when not compiled with -msse2 */
con->rect.x = (int32_t)new_rect->x + (double)(rel_x * (int32_t)new_rect->width)
/ (int32_t)old_rect->width - (int32_t)(con->rect.width / 2);
con->rect.y = (int32_t)new_rect->y + (double)(rel_y * (int32_t)new_rect->height)
/ (int32_t)old_rect->height - (int32_t)(con->rect.height / 2);
DLOG("Resulting coordinates: x = %d, y = %d\n", con->rect.x, con->rect.y);
}
#if 0
/*
* Moves the client 10px to the specified direction.
*
*/
void floating_move(xcb_connection_t *conn, Client *currently_focused, direction_t direction) {
DLOG("floating move\n");
Rect destination = currently_focused->rect;
Rect *screen = &(currently_focused->workspace->output->rect);
switch (direction) {
case D_LEFT:
destination.x -= 10;
break;
case D_RIGHT:
destination.x += 10;
break;
case D_UP:
destination.y -= 10;
break;
case D_DOWN:
destination.y += 10;
break;
/* to make static analyzers happy */
default:
break;
}
/* Prevent windows from vanishing completely */
if ((int32_t)(destination.x + destination.width - 5) <= (int32_t)screen->x ||
(int32_t)(destination.x + 5) >= (int32_t)(screen->x + screen->width) ||
(int32_t)(destination.y + destination.height - 5) <= (int32_t)screen->y ||
(int32_t)(destination.y + 5) >= (int32_t)(screen->y + screen->height)) {
DLOG("boundary check failed, not moving\n");
return;
}
currently_focused->rect = destination;
reposition_client(conn, currently_focused);
/* Because reposition_client does not send a faked configure event (only resize does),
* we need to initiate that on our own */
fake_absolute_configure_notify(conn, currently_focused);
/* fake_absolute_configure_notify flushes */
}
/*
* Hides all floating clients (or show them if they are currently hidden) on
* the specified workspace.
*
*/
void floating_toggle_hide(xcb_connection_t *conn, Workspace *workspace) {
Client *client;
workspace->floating_hidden = !workspace->floating_hidden;
DLOG("floating_hidden is now: %d\n", workspace->floating_hidden);
TAILQ_FOREACH(client, &(workspace->floating_clients), floating_clients) {
if (workspace->floating_hidden)
client_unmap(conn, client);
else client_map(conn, client);
}
/* If we just unmapped all floating windows we should ensure that the focus
* is set correctly, that ist, to the first non-floating client in stack */
if (workspace->floating_hidden)
SLIST_FOREACH(client, &(workspace->focus_stack), focus_clients) {
if (client_is_floating(client))
continue;
set_focus(conn, client, true);
return;
}
xcb_flush(conn);
}
#endif
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