/*
* Copyright © 2010-2012 Intel Corporation
* Copyright © 2011-2012 Collabora, Ltd.
* Copyright © 2013 Raspberry Pi Foundation
*
* Permission is hereby granted, free of charge, to any person obtaining a
* copy of this software and associated documentation files (the "Software"),
* to deal in the Software without restriction, including without limitation
* the rights to use, copy, modify, merge, publish, distribute, sublicense,
* and/or sell copies of the Software, and to permit persons to whom the
* Software is furnished to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice (including the next
* paragraph) 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 AUTHORS OR COPYRIGHT HOLDERS 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.
*/
#include "config.h"
#include <stdint.h>
#include <linux/input.h>
#include "shell.h"
#include "shared/helpers.h"
struct exposay_surface {
struct desktop_shell *shell;
struct exposay_output *eoutput;
struct weston_surface *surface;
struct weston_view *view;
struct wl_listener view_destroy_listener;
struct wl_list link;
int x;
int y;
int width;
int height;
double scale;
int row;
int column;
/* The animations only apply a transformation for their own lifetime,
* and don't have an option to indefinitely maintain the
* transformation in a steady state - so, we apply our own once the
* animation has finished. */
struct weston_transform transform;
};
static void exposay_set_state(struct desktop_shell *shell,
enum exposay_target_state state,
struct weston_seat *seat);
static void exposay_check_state(struct desktop_shell *shell);
static void
exposay_surface_destroy(struct exposay_surface *esurface)
{
wl_list_remove(&esurface->link);
wl_list_remove(&esurface->view_destroy_listener.link);
if (esurface->shell->exposay.focus_current == esurface->view)
esurface->shell->exposay.focus_current = NULL;
if (esurface->shell->exposay.focus_prev == esurface->view)
esurface->shell->exposay.focus_prev = NULL;
free(esurface);
}
static void
exposay_in_flight_inc(struct desktop_shell *shell)
{
shell->exposay.in_flight++;
}
static void
exposay_in_flight_dec(struct desktop_shell *shell)
{
if (--shell->exposay.in_flight > 0)
return;
exposay_check_state(shell);
}
static void
exposay_animate_in_done(struct weston_view_animation *animation, void *data)
{
struct exposay_surface *esurface = data;
wl_list_insert(&esurface->view->geometry.transformation_list,
&esurface->transform.link);
weston_matrix_init(&esurface->transform.matrix);
weston_matrix_scale(&esurface->transform.matrix,
esurface->scale, esurface->scale, 1.0f);
weston_matrix_translate(&esurface->transform.matrix,
esurface->x - esurface->view->geometry.x,
esurface->y - esurface->view->geometry.y,
0);
weston_view_geometry_dirty(esurface->view);
weston_compositor_schedule_repaint(esurface->view->surface->compositor);
exposay_in_flight_dec(esurface->shell);
}
static void
exposay_animate_in(struct exposay_surface *esurface)
{
exposay_in_flight_inc(esurface->shell);
weston_move_scale_run(esurface->view,
esurface->x - esurface->view->geometry.x,
esurface->y - esurface->view->geometry.y,
1.0, esurface->scale, 0,
exposay_animate_in_done, esurface);
}
static void
exposay_animate_out_done(struct weston_view_animation *animation, void *data)
{
struct exposay_surface *esurface = data;
struct desktop_shell *shell = esurface->shell;
exposay_surface_destroy(esurface);
exposay_in_flight_dec(shell);
}
static void
exposay_animate_out(struct exposay_surface *esurface)
{
exposay_in_flight_inc(esurface->shell);
/* Remove the static transformation set up by
* exposay_transform_in_done(). */
wl_list_remove(&esurface->transform.link);
weston_view_geometry_dirty(esurface->view);
weston_move_scale_run(esurface->view,
esurface->x - esurface->view->geometry.x,
esurface->y - esurface->view->geometry.y,
1.0, esurface->scale, 1,
exposay_animate_out_done, esurface);
}
static void
exposay_highlight_surface(struct desktop_shell *shell,
struct exposay_surface *esurface)
{
struct weston_view *view = esurface->view;
if (shell->exposay.focus_current == view)
return;
shell->exposay.row_current = esurface->row;
shell->exposay.column_current = esurface->column;
shell->exposay.cur_output = esurface->eoutput;
activate(shell, view, shell->exposay.seat,
WESTON_ACTIVATE_FLAG_NONE);
shell->exposay.focus_current = view;
}
static int
exposay_is_animating(struct desktop_shell *shell)
{
if (shell->exposay.state_cur == EXPOSAY_LAYOUT_INACTIVE ||
shell->exposay.state_cur == EXPOSAY_LAYOUT_OVERVIEW)
return 0;
return (shell->exposay.in_flight > 0);
}
static void
exposay_pick(struct desktop_shell *shell, int x, int y)
{
struct exposay_surface *esurface;
if (exposay_is_animating(shell))
return;
wl_list_for_each(esurface, &shell->exposay.surface_list, link) {
if (x < esurface->x || x > esurface->x + esurface->width)
continue;
if (y < esurface->y || y > esurface->y + esurface->height)
continue;
exposay_highlight_surface(shell, esurface);
return;
}
}
static void
handle_view_destroy(struct wl_listener *listener, void *data)
{
struct exposay_surface *esurface = container_of(listener,
struct exposay_surface,
view_destroy_listener);
exposay_surface_destroy(esurface);
}
/* Compute each surface size and then inner pad (10% of surface size).
* After that, it's necessary to recompute surface size (90% of its
* original size). Also, each surface can't be bigger than half the
* exposay area width and height.
*/
static void
exposay_surface_and_inner_pad_size(pixman_rectangle32_t exposay_area, struct exposay_output *eoutput)
{
if (exposay_area.height < exposay_area.width)
eoutput->surface_size = exposay_area.height / eoutput->grid_size;
else
eoutput->surface_size = exposay_area.width / eoutput->grid_size;
eoutput->padding_inner = eoutput->surface_size / 10;
eoutput->surface_size -= eoutput->padding_inner;
if ((uint32_t)eoutput->surface_size > (exposay_area.width / 2))
eoutput->surface_size = exposay_area.width / 2;
if ((uint32_t)eoutput->surface_size > (exposay_area.height / 2))
eoutput->surface_size = exposay_area.height / 2;
}
/* Compute the exposay top/left margin in order to centralize it */
static void
exposay_margin_size(struct desktop_shell *shell, pixman_rectangle32_t exposay_area,
int row_size, int column_size, int *left_margin, int *top_margin)
{
(*left_margin) = exposay_area.x + (exposay_area.width - row_size) / 2;
(*top_margin) = exposay_area.y + (exposay_area.height - column_size) / 2;
}
/* Pretty lame layout for now; just tries to make a square. Should take
* aspect ratio into account really. Also needs to be notified of surface
* addition and removal and adjust layout/animate accordingly.
*
* Lay the grid out as square as possible, losing surfaces from the
* bottom row if required. Start with fixed padding of a 10% margin
* around the outside, and maximise the area made available to surfaces
* after this. Also, add an inner padding between surfaces that varies
* with the surface size (10% of its size).
*
* If we can't make a square grid, add one extra row at the bottom which
* will have a smaller number of columns.
*/
static enum exposay_layout_state
exposay_layout(struct desktop_shell *shell, struct shell_output *shell_output)
{
struct workspace *workspace = shell->exposay.workspace;
struct weston_output *output = shell_output->output;
struct exposay_output *eoutput = &shell_output->eoutput;
struct weston_view *view;
struct exposay_surface *esurface, *highlight = NULL;
pixman_rectangle32_t exposay_area;
int pad, row_size, column_size, left_margin, top_margin;
int last_row_size, last_row_margin_increase;
int populated_rows;
int i;
eoutput->num_surfaces = 0;
wl_list_for_each(view, &workspace->layer.view_list.link, layer_link.link) {
if (!get_shell_surface(view->surface))
continue;
if (view->output != output)
continue;
eoutput->num_surfaces++;
}
if (eoutput->num_surfaces == 0) {
eoutput->grid_size = 0;
eoutput->padding_inner = 0;
eoutput->surface_size = 0;
return EXPOSAY_LAYOUT_OVERVIEW;
}
/* Get exposay area and position, taking into account
* the shell panel position and size */
get_output_work_area(shell, output, &exposay_area);
/* Compute grid size */
eoutput->grid_size = floor(sqrtf(eoutput->num_surfaces));
if (pow(eoutput->grid_size, 2) != eoutput->num_surfaces)
eoutput->grid_size++;
/* Compute each surface size and the inner padding between them */
exposay_surface_and_inner_pad_size(exposay_area, eoutput);
/* Compute each row/column size */
pad = eoutput->surface_size + eoutput->padding_inner;
row_size = (pad * eoutput->grid_size) - eoutput->padding_inner;
/* We may have empty rows that should be desconsidered to compute
* column size */
populated_rows = ceil(eoutput->num_surfaces / (float) eoutput->grid_size);
column_size = (pad * populated_rows) - eoutput->padding_inner;
/* The last row size can be different, since it may have less surfaces
* than the grid size. Also, its margin may be increased to centralize
* its surfaces, in the case where we don't have a perfect grid. */
last_row_size = ((eoutput->num_surfaces % eoutput->grid_size) * pad) - eoutput->padding_inner;
if (eoutput->num_surfaces % eoutput->grid_size)
last_row_margin_increase = (row_size - last_row_size) / 2;
else
last_row_margin_increase = 0;
/* Compute a top/left margin to centralize the exposay */
exposay_margin_size(shell, exposay_area, row_size, column_size, &left_margin, &top_margin);
i = 0;
wl_list_for_each(view, &workspace->layer.view_list.link, layer_link.link) {
if (!get_shell_surface(view->surface))
continue;
if (view->output != output)
continue;
esurface = malloc(sizeof(*esurface));
if (!esurface) {
exposay_set_state(shell, EXPOSAY_TARGET_CANCEL,
shell->exposay.seat);
break;
}
wl_list_insert(&shell->exposay.surface_list, &esurface->link);
esurface->shell = shell;
esurface->eoutput = eoutput;
esurface->view = view;
esurface->row = i / eoutput->grid_size;
esurface->column = i % eoutput->grid_size;
esurface->x = left_margin + (pad * esurface->column);
esurface->y = top_margin + (pad * esurface->row);
/* If this is the last row, increase left margin (it sums 0 if
* we have a perfect square) to centralize the surfaces */
if (eoutput->num_surfaces / eoutput->grid_size == esurface->row)
esurface->x += last_row_margin_increase;
if (view->surface->width > view->surface->height)
esurface->scale = eoutput->surface_size / (float) view->surface->width;
else
esurface->scale = eoutput->surface_size / (float) view->surface->height;
esurface->width = view->surface->width * esurface->scale;
esurface->height = view->surface->height * esurface->scale;
/* Surfaces are usually rectangular, but their exposay surfaces
* are square. centralize them in their own square */
if (esurface->width > esurface->height)
esurface->y += (esurface->width - esurface->height) / 2;
else
esurface->x += (esurface->height - esurface->width) / 2;
if (shell->exposay.focus_current == esurface->view)
highlight = esurface;
exposay_animate_in(esurface);
/* We want our destroy handler to be after the animation
* destroy handler in the list, this way when the view is
* destroyed, the animation can safely call the animation
* completion callback before we free the esurface in our
* destroy handler.
*/
esurface->view_destroy_listener.notify = handle_view_destroy;
wl_signal_add(&view->destroy_signal, &esurface->view_destroy_listener);
i++;
}
if (highlight) {
shell->exposay.focus_current = NULL;
exposay_highlight_surface(shell, highlight);
}
weston_compositor_schedule_repaint(shell->compositor);
return EXPOSAY_LAYOUT_ANIMATE_TO_OVERVIEW;
}
static void
exposay_focus(struct weston_pointer_grab *grab)
{
}
static void
exposay_motion(struct weston_pointer_grab *grab,
const struct timespec *time,
struct weston_pointer_motion_event *event)
{
struct desktop_shell *shell =
container_of(grab, struct desktop_shell, exposay.grab_ptr);
weston_pointer_move(grab->pointer, event);
exposay_pick(shell,
wl_fixed_to_int(grab->pointer->x),
wl_fixed_to_int(grab->pointer->y));
}
static void
exposay_button(struct weston_pointer_grab *grab, const struct timespec *time,
uint32_t button, uint32_t state_w)
{
struct desktop_shell *shell =
container_of(grab, struct desktop_shell, exposay.grab_ptr);
struct weston_seat *seat = grab->pointer->seat;
enum wl_pointer_button_state state = state_w;
if (button != BTN_LEFT)
return;
/* Store the surface we clicked on, and don't do anything if we end up
* releasing on a different surface. */
if (state == WL_POINTER_BUTTON_STATE_PRESSED) {
shell->exposay.clicked = shell->exposay.focus_current;
return;
}
if (shell->exposay.focus_current == shell->exposay.clicked)
exposay_set_state(shell, EXPOSAY_TARGET_SWITCH, seat);
else
shell->exposay.clicked = NULL;
}
static void
exposay_axis(struct weston_pointer_grab *grab,
const struct timespec *time,
struct weston_pointer_axis_event *event)
{
}
static void
exposay_axis_source(struct weston_pointer_grab *grab, uint32_t source)
{
}
static void
exposay_frame(struct weston_pointer_grab *grab)
{
}
static void
exposay_pointer_grab_cancel(struct weston_pointer_grab *grab)
{
struct desktop_shell *shell =
container_of(grab, struct desktop_shell, exposay.grab_ptr);
exposay_set_state(shell, EXPOSAY_TARGET_CANCEL, shell->exposay.seat);
}
static const struct weston_pointer_grab_interface exposay_ptr_grab = {
exposay_focus,
exposay_motion,
exposay_button,
exposay_axis,
exposay_axis_source,
exposay_frame,
exposay_pointer_grab_cancel,
};
static int
exposay_maybe_move(struct desktop_shell *shell, int row, int column)
{
struct exposay_surface *esurface;
wl_list_for_each(esurface, &shell->exposay.surface_list, link) {
if (esurface->eoutput != shell->exposay.cur_output ||
esurface->row != row || esurface->column != column)
continue;
exposay_highlight_surface(shell, esurface);
return 1;
}
return 0;
}
static void
exposay_key(struct weston_keyboard_grab *grab, const struct timespec *time,
uint32_t key, uint32_t state_w)
{
struct weston_seat *seat = grab->keyboard->seat;
struct desktop_shell *shell =
container_of(grab, struct desktop_shell, exposay.grab_kbd);
enum wl_keyboard_key_state state = state_w;
if (state != WL_KEYBOARD_KEY_STATE_RELEASED)
return;
switch (key) {
case KEY_ESC:
exposay_set_state(shell, EXPOSAY_TARGET_CANCEL, seat);
break;
case KEY_ENTER:
exposay_set_state(shell, EXPOSAY_TARGET_SWITCH, seat);
break;
case KEY_UP:
exposay_maybe_move(shell, shell->exposay.row_current - 1,
shell->exposay.column_current);
break;
case KEY_DOWN:
/* Special case for trying to move to the bottom row when it
* has fewer items than all the others. */
if (!exposay_maybe_move(shell, shell->exposay.row_current + 1,
shell->exposay.column_current) &&
shell->exposay.row_current < (shell->exposay.cur_output->grid_size - 1)) {
exposay_maybe_move(shell, shell->exposay.row_current + 1,
(shell->exposay.cur_output->num_surfaces %
shell->exposay.cur_output->grid_size) - 1);
}
break;
case KEY_LEFT:
exposay_maybe_move(shell, shell->exposay.row_current,
shell->exposay.column_current - 1);
break;
case KEY_RIGHT:
exposay_maybe_move(shell, shell->exposay.row_current,
shell->exposay.column_current + 1);
break;
case KEY_TAB:
/* Try to move right, then down (and to the leftmost column),
* then if all else fails, to the top left. */
if (!exposay_maybe_move(shell, shell->exposay.row_current,
shell->exposay.column_current + 1) &&
!exposay_maybe_move(shell, shell->exposay.row_current + 1, 0))
exposay_maybe_move(shell, 0, 0);
break;
default:
break;
}
}
static void
exposay_modifier(struct weston_keyboard_grab *grab, uint32_t serial,
uint32_t mods_depressed, uint32_t mods_latched,
uint32_t mods_locked, uint32_t group)
{
struct desktop_shell *shell =
container_of(grab, struct desktop_shell, exposay.grab_kbd);
struct weston_seat *seat = (struct weston_seat *) grab->keyboard->seat;
/* We want to know when mod has been pressed and released.
* FIXME: There is a problem here: if mod is pressed, then a key
* is pressed and released, then mod is released, we will treat that
* as if only mod had been pressed and released. */
if (seat->modifier_state) {
if (seat->modifier_state == shell->binding_modifier) {
shell->exposay.mod_pressed = true;
} else {
shell->exposay.mod_invalid = true;
}
} else {
if (shell->exposay.mod_pressed && !shell->exposay.mod_invalid)
exposay_set_state(shell, EXPOSAY_TARGET_CANCEL, seat);
shell->exposay.mod_invalid = false;
shell->exposay.mod_pressed = false;
}
return;
}
static void
exposay_cancel(struct weston_keyboard_grab *grab)
{
struct desktop_shell *shell =
container_of(grab, struct desktop_shell, exposay.grab_kbd);
exposay_set_state(shell, EXPOSAY_TARGET_CANCEL, shell->exposay.seat);
}
static const struct weston_keyboard_grab_interface exposay_kbd_grab = {
exposay_key,
exposay_modifier,
exposay_cancel,
};
/**
* Called when the transition from overview -> inactive has completed.
*/
static enum exposay_layout_state
exposay_set_inactive(struct desktop_shell *shell)
{
struct weston_seat *seat = shell->exposay.seat;
struct weston_keyboard *keyboard = weston_seat_get_keyboard(seat);
struct weston_pointer *pointer = weston_seat_get_pointer(seat);
if (pointer)
weston_pointer_end_grab(pointer);
if (keyboard) {
weston_keyboard_end_grab(keyboard);
if (keyboard->input_method_resource)
keyboard->grab = &keyboard->input_method_grab;
}
return EXPOSAY_LAYOUT_INACTIVE;
}
/**
* Begins the transition from overview to inactive. */
static enum exposay_layout_state
exposay_transition_inactive(struct desktop_shell *shell, int switch_focus)
{
struct exposay_surface *esurface;
/* Call activate() before we start the animations to avoid
* animating back the old state and then immediately transitioning
* to the new. */
if (switch_focus && shell->exposay.focus_current)
activate(shell, shell->exposay.focus_current,
shell->exposay.seat,
WESTON_ACTIVATE_FLAG_CONFIGURE);
else if (shell->exposay.focus_prev)
activate(shell, shell->exposay.focus_prev,
shell->exposay.seat,
WESTON_ACTIVATE_FLAG_CONFIGURE);
wl_list_for_each(esurface, &shell->exposay.surface_list, link)
exposay_animate_out(esurface);
weston_compositor_schedule_repaint(shell->compositor);
return EXPOSAY_LAYOUT_ANIMATE_TO_INACTIVE;
}
static enum exposay_layout_state
exposay_transition_active(struct desktop_shell *shell)
{
struct weston_seat *seat = shell->exposay.seat;
struct weston_pointer *pointer = weston_seat_get_pointer(seat);
struct weston_keyboard *keyboard = weston_seat_get_keyboard(seat);
struct shell_output *shell_output;
bool animate = false;
shell->exposay.workspace = get_current_workspace(shell);
shell->exposay.focus_prev = get_default_view(keyboard->focus);
shell->exposay.focus_current = get_default_view(keyboard->focus);
shell->exposay.clicked = NULL;
wl_list_init(&shell->exposay.surface_list);
lower_fullscreen_layer(shell, NULL);
shell->exposay.grab_kbd.interface = &exposay_kbd_grab;
weston_keyboard_start_grab(keyboard,
&shell->exposay.grab_kbd);
weston_keyboard_set_focus(keyboard, NULL);
shell->exposay.grab_ptr.interface = &exposay_ptr_grab;
if (pointer) {
weston_pointer_start_grab(pointer,
&shell->exposay.grab_ptr);
weston_pointer_clear_focus(pointer);
}
wl_list_for_each(shell_output, &shell->output_list, link) {
enum exposay_layout_state state;
state = exposay_layout(shell, shell_output);
if (state == EXPOSAY_LAYOUT_ANIMATE_TO_OVERVIEW)
animate = true;
}
return animate ? EXPOSAY_LAYOUT_ANIMATE_TO_OVERVIEW
: EXPOSAY_LAYOUT_OVERVIEW;
}
static void
exposay_check_state(struct desktop_shell *shell)
{
enum exposay_layout_state state_new = shell->exposay.state_cur;
int do_switch = 0;
/* Don't do anything whilst animations are running, just store up
* target state changes and only act on them when the animations have
* completed. */
if (exposay_is_animating(shell))
return;
switch (shell->exposay.state_target) {
case EXPOSAY_TARGET_OVERVIEW:
switch (shell->exposay.state_cur) {
case EXPOSAY_LAYOUT_OVERVIEW:
goto out;
case EXPOSAY_LAYOUT_ANIMATE_TO_OVERVIEW:
state_new = EXPOSAY_LAYOUT_OVERVIEW;
break;
default:
state_new = exposay_transition_active(shell);
break;
}
break;
case EXPOSAY_TARGET_SWITCH:
do_switch = 1; /* fallthrough */
case EXPOSAY_TARGET_CANCEL:
switch (shell->exposay.state_cur) {
case EXPOSAY_LAYOUT_INACTIVE:
goto out;
case EXPOSAY_LAYOUT_ANIMATE_TO_INACTIVE:
state_new = exposay_set_inactive(shell);
break;
default:
state_new = exposay_transition_inactive(shell, do_switch);
break;
}
break;
}
out:
shell->exposay.state_cur = state_new;
}
static void
exposay_set_state(struct desktop_shell *shell, enum exposay_target_state state,
struct weston_seat *seat)
{
shell->exposay.state_target = state;
shell->exposay.seat = seat;
exposay_check_state(shell);
}
void
exposay_binding(struct weston_keyboard *keyboard, enum weston_keyboard_modifier modifier,
void *data)
{
struct desktop_shell *shell = data;
exposay_set_state(shell, EXPOSAY_TARGET_OVERVIEW, keyboard->seat);
}