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swayfx/sway/desktop/transaction.c
Ryan Dwyer 0a9ff774ad Center surface inside container when it's too small 
The goal here is to center fullscreen views when they are both too small
for the output and refuse to resize to the output's dimensions. It has
the side effect of also centering the view when it's too small for its
container.

Example clients that have this behaviour are emersion's hello-wayland
and weston.

It works by introducing surface_{x,y,width,height} properties to the
container struct. The x and y represent layout-local coordinates where
the surface will be rendered. The width and height are only used to
track the surface's previous dimensions so we can detect when the client
has resized it and recenter and apply damage accordingly.

The new surface properties are calculated when a transaction is applied,
as well as when a view resizes itself unexpectedly. The latter is done
in view_update_size. This function was previously restricted to views
which are floating, but can now be called for any views.

For views which refuse to resize *smaller* than a particular size, such
as gnome-calculator, the surface is still anchored to the top left as
per the current behaviour.
2019-01-28 01:17:21 -05:00

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#define _POSIX_C_SOURCE 200809L
#include <stdbool.h>
#include <stdlib.h>
#include <string.h>
#include <time.h>
#include <wlr/types/wlr_buffer.h>
#include "sway/config.h"
#include "sway/debug.h"
#include "sway/desktop.h"
#include "sway/desktop/idle_inhibit_v1.h"
#include "sway/desktop/transaction.h"
#include "sway/input/cursor.h"
#include "sway/input/input-manager.h"
#include "sway/output.h"
#include "sway/tree/container.h"
#include "sway/tree/node.h"
#include "sway/tree/view.h"
#include "sway/tree/workspace.h"
#include "list.h"
#include "log.h"
struct sway_transaction {
struct wl_event_source *timer;
list_t *instructions; // struct sway_transaction_instruction *
size_t num_waiting;
size_t num_configures;
struct timespec commit_time;
};
struct sway_transaction_instruction {
struct sway_transaction *transaction;
struct sway_node *node;
union {
struct sway_output_state output_state;
struct sway_workspace_state workspace_state;
struct sway_container_state container_state;
};
uint32_t serial;
};
static struct sway_transaction *transaction_create(void) {
struct sway_transaction *transaction =
calloc(1, sizeof(struct sway_transaction));
if (!sway_assert(transaction, "Unable to allocate transaction")) {
return NULL;
}
transaction->instructions = create_list();
return transaction;
}
static void transaction_destroy(struct sway_transaction *transaction) {
// Free instructions
for (int i = 0; i < transaction->instructions->length; ++i) {
struct sway_transaction_instruction *instruction =
transaction->instructions->items[i];
struct sway_node *node = instruction->node;
node->ntxnrefs--;
if (node->instruction == instruction) {
node->instruction = NULL;
}
if (node->destroying && node->ntxnrefs == 0) {
switch (node->type) {
case N_ROOT:
sway_assert(false, "Never reached");
break;
case N_OUTPUT:
output_destroy(node->sway_output);
break;
case N_WORKSPACE:
workspace_destroy(node->sway_workspace);
break;
case N_CONTAINER:
container_destroy(node->sway_container);
break;
}
}
free(instruction);
}
list_free(transaction->instructions);
if (transaction->timer) {
wl_event_source_remove(transaction->timer);
}
free(transaction);
}
static void copy_output_state(struct sway_output *output,
struct sway_transaction_instruction *instruction) {
struct sway_output_state *state = &instruction->output_state;
state->workspaces = create_list();
list_cat(state->workspaces, output->workspaces);
state->active_workspace = output_get_active_workspace(output);
}
static void copy_workspace_state(struct sway_workspace *ws,
struct sway_transaction_instruction *instruction) {
struct sway_workspace_state *state = &instruction->workspace_state;
state->fullscreen = ws->fullscreen;
state->x = ws->x;
state->y = ws->y;
state->width = ws->width;
state->height = ws->height;
state->layout = ws->layout;
state->output = ws->output;
state->floating = create_list();
state->tiling = create_list();
list_cat(state->floating, ws->floating);
list_cat(state->tiling, ws->tiling);
struct sway_seat *seat = input_manager_current_seat();
state->focused = seat_get_focus(seat) == &ws->node;
// Set focused_inactive_child to the direct tiling child
struct sway_container *focus = seat_get_focus_inactive_tiling(seat, ws);
if (focus) {
while (focus->parent) {
focus = focus->parent;
}
}
state->focused_inactive_child = focus;
}
static void copy_container_state(struct sway_container *container,
struct sway_transaction_instruction *instruction) {
struct sway_container_state *state = &instruction->container_state;
state->layout = container->layout;
state->x = container->x;
state->y = container->y;
state->width = container->width;
state->height = container->height;
state->fullscreen_mode = container->fullscreen_mode;
state->parent = container->parent;
state->workspace = container->workspace;
state->border = container->border;
state->border_thickness = container->border_thickness;
state->border_top = container->border_top;
state->border_left = container->border_left;
state->border_right = container->border_right;
state->border_bottom = container->border_bottom;
state->content_x = container->content_x;
state->content_y = container->content_y;
state->content_width = container->content_width;
state->content_height = container->content_height;
if (!container->view) {
state->children = create_list();
list_cat(state->children, container->children);
}
struct sway_seat *seat = input_manager_current_seat();
state->focused = seat_get_focus(seat) == &container->node;
if (!container->view) {
struct sway_node *focus =
seat_get_active_tiling_child(seat, &container->node);
state->focused_inactive_child = focus ? focus->sway_container : NULL;
}
}
static void transaction_add_node(struct sway_transaction *transaction,
struct sway_node *node) {
struct sway_transaction_instruction *instruction =
calloc(1, sizeof(struct sway_transaction_instruction));
if (!sway_assert(instruction, "Unable to allocate instruction")) {
return;
}
instruction->transaction = transaction;
instruction->node = node;
switch (node->type) {
case N_ROOT:
break;
case N_OUTPUT:
copy_output_state(node->sway_output, instruction);
break;
case N_WORKSPACE:
copy_workspace_state(node->sway_workspace, instruction);
break;
case N_CONTAINER:
copy_container_state(node->sway_container, instruction);
break;
}
list_add(transaction->instructions, instruction);
node->ntxnrefs++;
}
static void apply_output_state(struct sway_output *output,
struct sway_output_state *state) {
output_damage_whole(output);
list_free(output->current.workspaces);
memcpy(&output->current, state, sizeof(struct sway_output_state));
output_damage_whole(output);
}
static void apply_workspace_state(struct sway_workspace *ws,
struct sway_workspace_state *state) {
output_damage_whole(ws->current.output);
list_free(ws->current.floating);
list_free(ws->current.tiling);
memcpy(&ws->current, state, sizeof(struct sway_workspace_state));
output_damage_whole(ws->current.output);
}
static void apply_container_state(struct sway_container *container,
struct sway_container_state *state) {
struct sway_view *view = container->view;
// Damage the old location
desktop_damage_whole_container(container);
if (view && view->saved_buffer) {
struct wlr_box box = {
.x = container->current.content_x - view->saved_geometry.x,
.y = container->current.content_y - view->saved_geometry.y,
.width = view->saved_buffer_width,
.height = view->saved_buffer_height,
};
desktop_damage_box(&box);
}
// There are separate children lists for each instruction state, the
// container's current state and the container's pending state
// (ie. con->children). The list itself needs to be freed here.
// Any child containers which are being deleted will be cleaned up in
// transaction_destroy().
list_free(container->current.children);
memcpy(&container->current, state, sizeof(struct sway_container_state));
if (view && view->saved_buffer) {
if (!container->node.destroying || container->node.ntxnrefs == 1) {
view_remove_saved_buffer(view);
}
}
// Damage the new location
desktop_damage_whole_container(container);
if (view && view->surface) {
struct wlr_surface *surface = view->surface;
struct wlr_box box = {
.x = container->current.content_x - view->geometry.x,
.y = container->current.content_y - view->geometry.y,
.width = surface->current.width,
.height = surface->current.height,
};
desktop_damage_box(&box);
}
// If the view hasn't responded to the configure, center it within
// the container. This is important for fullscreen views which
// refuse to resize to the size of the output.
if (view && view->surface) {
if (view->surface->current.width < container->width) {
container->surface_x = container->content_x +
(container->content_width - view->surface->current.width) / 2;
} else {
container->surface_x = container->content_x;
}
if (view->surface->current.height < container->height) {
container->surface_y = container->content_y +
(container->content_height - view->surface->current.height) / 2;
} else {
container->surface_y = container->content_y;
}
container->surface_width = view->surface->current.width;
container->surface_height = view->surface->current.height;
}
if (!container->node.destroying) {
container_discover_outputs(container);
}
}
/**
* Apply a transaction to the "current" state of the tree.
*/
static void transaction_apply(struct sway_transaction *transaction) {
sway_log(SWAY_DEBUG, "Applying transaction %p", transaction);
if (debug.txn_timings) {
struct timespec now;
clock_gettime(CLOCK_MONOTONIC, &now);
struct timespec *commit = &transaction->commit_time;
float ms = (now.tv_sec - commit->tv_sec) * 1000 +
(now.tv_nsec - commit->tv_nsec) / 1000000.0;
sway_log(SWAY_DEBUG, "Transaction %p: %.1fms waiting "
"(%.1f frames if 60Hz)", transaction, ms, ms / (1000.0f / 60));
}
// Apply the instruction state to the node's current state
for (int i = 0; i < transaction->instructions->length; ++i) {
struct sway_transaction_instruction *instruction =
transaction->instructions->items[i];
struct sway_node *node = instruction->node;
switch (node->type) {
case N_ROOT:
break;
case N_OUTPUT:
apply_output_state(node->sway_output, &instruction->output_state);
break;
case N_WORKSPACE:
apply_workspace_state(node->sway_workspace,
&instruction->workspace_state);
break;
case N_CONTAINER:
apply_container_state(node->sway_container,
&instruction->container_state);
break;
}
node->instruction = NULL;
}
if (root->outputs->length) {
struct sway_seat *seat;
wl_list_for_each(seat, &server.input->seats, link) {
if (!seat_doing_seatop(seat)) {
cursor_rebase(seat->cursor);
}
}
}
}
static void transaction_commit(struct sway_transaction *transaction);
// Return true if both transactions operate on the same nodes
static bool transaction_same_nodes(struct sway_transaction *a,
struct sway_transaction *b) {
if (a->instructions->length != b->instructions->length) {
return false;
}
for (int i = 0; i < a->instructions->length; ++i) {
struct sway_transaction_instruction *a_inst = a->instructions->items[i];
struct sway_transaction_instruction *b_inst = b->instructions->items[i];
if (a_inst->node != b_inst->node) {
return false;
}
}
return true;
}
static void transaction_progress_queue(void) {
if (!server.transactions->length) {
return;
}
// There's only ever one committed transaction,
// and it's the first one in the queue.
struct sway_transaction *transaction = server.transactions->items[0];
if (transaction->num_waiting) {
return;
}
transaction_apply(transaction);
transaction_destroy(transaction);
list_del(server.transactions, 0);
if (!server.transactions->length) {
idle_inhibit_v1_check_active(server.idle_inhibit_manager_v1);
return;
}
// If there's a bunch of consecutive transactions which all apply to the
// same views, skip all except the last one.
while (server.transactions->length >= 2) {
struct sway_transaction *a = server.transactions->items[0];
struct sway_transaction *b = server.transactions->items[1];
if (transaction_same_nodes(a, b)) {
list_del(server.transactions, 0);
transaction_destroy(a);
} else {
break;
}
}
transaction = server.transactions->items[0];
transaction_commit(transaction);
transaction_progress_queue();
}
static int handle_timeout(void *data) {
struct sway_transaction *transaction = data;
sway_log(SWAY_DEBUG, "Transaction %p timed out (%zi waiting)",
transaction, transaction->num_waiting);
transaction->num_waiting = 0;
transaction_progress_queue();
return 0;
}
static bool should_configure(struct sway_node *node,
struct sway_transaction_instruction *instruction) {
if (!node_is_view(node)) {
return false;
}
if (node->destroying) {
return false;
}
struct sway_container_state *cstate = &node->sway_container->current;
struct sway_container_state *istate = &instruction->container_state;
#if HAVE_XWAYLAND
// Xwayland views are position-aware and need to be reconfigured
// when their position changes.
if (node->sway_container->view->type == SWAY_VIEW_XWAYLAND) {
if (cstate->content_x != istate->content_x ||
cstate->content_y != istate->content_y) {
return true;
}
}
#endif
if (cstate->content_width == istate->content_width &&
cstate->content_height == istate->content_height) {
return false;
}
return true;
}
static void transaction_commit(struct sway_transaction *transaction) {
sway_log(SWAY_DEBUG, "Transaction %p committing with %i instructions",
transaction, transaction->instructions->length);
transaction->num_waiting = 0;
for (int i = 0; i < transaction->instructions->length; ++i) {
struct sway_transaction_instruction *instruction =
transaction->instructions->items[i];
struct sway_node *node = instruction->node;
if (should_configure(node, instruction)) {
instruction->serial = view_configure(node->sway_container->view,
instruction->container_state.content_x,
instruction->container_state.content_y,
instruction->container_state.content_width,
instruction->container_state.content_height);
++transaction->num_waiting;
// From here on we are rendering a saved buffer of the view, which
// means we can send a frame done event to make the client redraw it
// as soon as possible. Additionally, this is required if a view is
// mapping and its default geometry doesn't intersect an output.
struct timespec when;
wlr_surface_send_frame_done(
node->sway_container->view->surface, &when);
}
if (node_is_view(node) && !node->sway_container->view->saved_buffer) {
view_save_buffer(node->sway_container->view);
memcpy(&node->sway_container->view->saved_geometry,
&node->sway_container->view->geometry,
sizeof(struct wlr_box));
}
node->instruction = instruction;
}
transaction->num_configures = transaction->num_waiting;
if (debug.txn_timings) {
clock_gettime(CLOCK_MONOTONIC, &transaction->commit_time);
}
if (debug.noatomic) {
transaction->num_waiting = 0;
} else if (debug.txn_wait) {
// Force the transaction to time out even if all views are ready.
// We do this by inflating the waiting counter.
transaction->num_waiting += 1000000;
}
if (transaction->num_waiting) {
// Set up a timer which the views must respond within
transaction->timer = wl_event_loop_add_timer(server.wl_event_loop,
handle_timeout, transaction);
if (transaction->timer) {
wl_event_source_timer_update(transaction->timer,
server.txn_timeout_ms);
} else {
sway_log_errno(SWAY_ERROR, "Unable to create transaction timer "
"(some imperfect frames might be rendered)");
transaction->num_waiting = 0;
}
}
// The debug tree shows the pending/live tree. Here is a good place to
// update it, because we make a transaction every time we change the pending
// tree.
update_debug_tree();
}
static void set_instruction_ready(
struct sway_transaction_instruction *instruction) {
struct sway_transaction *transaction = instruction->transaction;
if (debug.txn_timings) {
struct timespec now;
clock_gettime(CLOCK_MONOTONIC, &now);
struct timespec *start = &transaction->commit_time;
float ms = (now.tv_sec - start->tv_sec) * 1000 +
(now.tv_nsec - start->tv_nsec) / 1000000.0;
sway_log(SWAY_DEBUG, "Transaction %p: %zi/%zi ready in %.1fms (%s)",
transaction,
transaction->num_configures - transaction->num_waiting + 1,
transaction->num_configures, ms,
instruction->node->sway_container->title);
}
// If the transaction has timed out then its num_waiting will be 0 already.
if (transaction->num_waiting > 0 && --transaction->num_waiting == 0) {
sway_log(SWAY_DEBUG, "Transaction %p is ready", transaction);
wl_event_source_timer_update(transaction->timer, 0);
}
instruction->node->instruction = NULL;
transaction_progress_queue();
}
void transaction_notify_view_ready_by_serial(struct sway_view *view,
uint32_t serial) {
struct sway_transaction_instruction *instruction =
view->container->node.instruction;
if (instruction->serial == serial) {
set_instruction_ready(instruction);
}
}
void transaction_notify_view_ready_by_size(struct sway_view *view,
int width, int height) {
struct sway_transaction_instruction *instruction =
view->container->node.instruction;
if (instruction->container_state.content_width == width &&
instruction->container_state.content_height == height) {
set_instruction_ready(instruction);
}
}
void transaction_commit_dirty(void) {
if (!server.dirty_nodes->length) {
return;
}
struct sway_transaction *transaction = transaction_create();
if (!transaction) {
return;
}
for (int i = 0; i < server.dirty_nodes->length; ++i) {
struct sway_node *node = server.dirty_nodes->items[i];
transaction_add_node(transaction, node);
node->dirty = false;
}
server.dirty_nodes->length = 0;
list_add(server.transactions, transaction);
// There's only ever one committed transaction,
// and it's the first one in the queue.
if (server.transactions->length == 1) {
transaction_commit(transaction);
// Attempting to progress the queue here is useful
// if the transaction has nothing to wait for.
transaction_progress_queue();
}
}
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