#define _POSIX_C_SOURCE 200809L #include #include #include #include #include #include #include #include #include #include #include #include "linux-dmabuf-unstable-v1-protocol.h" #include "cairo_util.h" #include "pango.h" #include "sway/config.h" #include "sway/desktop.h" #include "sway/desktop/fx_renderer.h" #include "sway/desktop/transaction.h" #include "sway/input/input-manager.h" #include "sway/input/seat.h" #include "sway/ipc-server.h" #include "sway/output.h" #include "sway/server.h" #include "sway/tree/arrange.h" #include "sway/tree/view.h" #include "sway/tree/workspace.h" #include "sway/xdg_decoration.h" #include "list.h" #include "log.h" #include "stringop.h" struct sway_container *container_create(struct sway_view *view) { struct sway_container *c = calloc(1, sizeof(struct sway_container)); if (!c) { sway_log(SWAY_ERROR, "Unable to allocate sway_container"); return NULL; } node_init(&c->node, N_CONTAINER, c); c->pending.layout = L_NONE; c->view = view; c->alpha = 1.0f; if (!view) { c->pending.children = create_list(); c->current.children = create_list(); } c->marks = create_list(); c->outputs = create_list(); wl_signal_init(&c->events.destroy); wl_signal_emit(&root->events.new_node, &c->node); return c; } void container_destroy(struct sway_container *con) { if (!sway_assert(con->node.destroying, "Tried to free container which wasn't marked as destroying")) { return; } if (!sway_assert(con->node.ntxnrefs == 0, "Tried to free container " "which is still referenced by transactions")) { return; } free(con->title); free(con->formatted_title); wlr_texture_destroy(con->title_focused); wlr_texture_destroy(con->title_focused_inactive); wlr_texture_destroy(con->title_unfocused); wlr_texture_destroy(con->title_urgent); wlr_texture_destroy(con->title_focused_tab_title); list_free(con->pending.children); list_free(con->current.children); list_free(con->outputs); list_free_items_and_destroy(con->marks); wlr_texture_destroy(con->marks_focused); wlr_texture_destroy(con->marks_focused_inactive); wlr_texture_destroy(con->marks_unfocused); wlr_texture_destroy(con->marks_urgent); wlr_texture_destroy(con->marks_focused_tab_title); if (con->view && con->view->container == con) { con->view->container = NULL; if (con->view->destroying) { view_destroy(con->view); } } free(con); } void container_begin_destroy(struct sway_container *con) { if (con->view) { ipc_event_window(con, "close"); } // The workspace must have the fullscreen pointer cleared so that the // seat code can find an appropriate new focus. if (con->pending.fullscreen_mode == FULLSCREEN_WORKSPACE && con->pending.workspace) { con->pending.workspace->fullscreen = NULL; } if (con->scratchpad && con->pending.fullscreen_mode == FULLSCREEN_GLOBAL) { container_fullscreen_disable(con); } wl_signal_emit(&con->node.events.destroy, &con->node); container_end_mouse_operation(con); con->node.destroying = true; node_set_dirty(&con->node); if (con->scratchpad) { root_scratchpad_remove_container(con); } if (con->pending.fullscreen_mode == FULLSCREEN_GLOBAL) { container_fullscreen_disable(con); } if (con->pending.parent || con->pending.workspace) { container_detach(con); } } void container_reap_empty(struct sway_container *con) { if (con->view) { return; } struct sway_workspace *ws = con->pending.workspace; while (con) { if (con->pending.children->length) { return; } struct sway_container *parent = con->pending.parent; container_begin_destroy(con); con = parent; } if (ws) { workspace_consider_destroy(ws); } } struct sway_container *container_flatten(struct sway_container *container) { if (container->view) { return NULL; } while (container && container->pending.children->length == 1) { struct sway_container *child = container->pending.children->items[0]; struct sway_container *parent = container->pending.parent; container_replace(container, child); container_begin_destroy(container); container = parent; } return container; } struct sway_container *container_find_child(struct sway_container *container, bool (*test)(struct sway_container *con, void *data), void *data) { if (!container->pending.children) { return NULL; } for (int i = 0; i < container->pending.children->length; ++i) { struct sway_container *child = container->pending.children->items[i]; if (test(child, data)) { return child; } struct sway_container *res = container_find_child(child, test, data); if (res) { return res; } } return NULL; } static struct sway_container *surface_at_view(struct sway_container *con, double lx, double ly, struct wlr_surface **surface, double *sx, double *sy) { if (!sway_assert(con->view, "Expected a view")) { return NULL; } struct sway_view *view = con->view; double view_sx = lx - con->surface_x + view->geometry.x; double view_sy = ly - con->surface_y + view->geometry.y; double _sx, _sy; struct wlr_surface *_surface = NULL; switch (view->type) { #if HAVE_XWAYLAND case SWAY_VIEW_XWAYLAND: _surface = wlr_surface_surface_at(view->surface, view_sx, view_sy, &_sx, &_sy); break; #endif case SWAY_VIEW_XDG_SHELL: _surface = wlr_xdg_surface_surface_at( view->wlr_xdg_surface, view_sx, view_sy, &_sx, &_sy); break; } if (_surface) { *sx = _sx; *sy = _sy; *surface = _surface; return con; } return NULL; } /** * container_at for a container with layout L_TABBED. */ static struct sway_container *container_at_tabbed(struct sway_node *parent, double lx, double ly, struct wlr_surface **surface, double *sx, double *sy) { struct wlr_box box; node_get_box(parent, &box); if (lx < box.x || lx > box.x + box.width || ly < box.y || ly > box.y + box.height) { return NULL; } struct sway_seat *seat = input_manager_current_seat(); list_t *children = node_get_children(parent); if (!children->length) { return NULL; } // Tab titles int title_height = container_titlebar_height(); if (ly < box.y + title_height) { int tab_width = box.width / children->length; int child_index = (lx - box.x) / tab_width; if (child_index >= children->length) { child_index = children->length - 1; } struct sway_container *child = children->items[child_index]; return child; } // Surfaces struct sway_node *current = seat_get_active_tiling_child(seat, parent); return current ? tiling_container_at(current, lx, ly, surface, sx, sy) : NULL; } /** * container_at for a container with layout L_STACKED. */ static struct sway_container *container_at_stacked(struct sway_node *parent, double lx, double ly, struct wlr_surface **surface, double *sx, double *sy) { struct wlr_box box; node_get_box(parent, &box); if (lx < box.x || lx > box.x + box.width || ly < box.y || ly > box.y + box.height) { return NULL; } struct sway_seat *seat = input_manager_current_seat(); list_t *children = node_get_children(parent); // Title bars int title_height = container_titlebar_height(); if (title_height > 0) { int child_index = (ly - box.y) / title_height; if (child_index < children->length) { struct sway_container *child = children->items[child_index]; return child; } } // Surfaces struct sway_node *current = seat_get_active_tiling_child(seat, parent); return current ? tiling_container_at(current, lx, ly, surface, sx, sy) : NULL; } /** * container_at for a container with layout L_HORIZ or L_VERT. */ static struct sway_container *container_at_linear(struct sway_node *parent, double lx, double ly, struct wlr_surface **surface, double *sx, double *sy) { list_t *children = node_get_children(parent); for (int i = 0; i < children->length; ++i) { struct sway_container *child = children->items[i]; struct sway_container *container = tiling_container_at(&child->node, lx, ly, surface, sx, sy); if (container) { return container; } } return NULL; } static struct sway_container *floating_container_at(double lx, double ly, struct wlr_surface **surface, double *sx, double *sy) { // For outputs with floating containers that overhang the output bounds, // those at the end of the output list appear on top of floating // containers from other outputs, so iterate the list in reverse. for (int i = root->outputs->length - 1; i >= 0; --i) { struct sway_output *output = root->outputs->items[i]; for (int j = 0; j < output->workspaces->length; ++j) { struct sway_workspace *ws = output->workspaces->items[j]; if (!workspace_is_visible(ws)) { continue; } // Items at the end of the list are on top, so iterate the list in // reverse. for (int k = ws->floating->length - 1; k >= 0; --k) { struct sway_container *floater = ws->floating->items[k]; struct sway_container *container = tiling_container_at(&floater->node, lx, ly, surface, sx, sy); if (container) { return container; } } } } return NULL; } static struct sway_container *view_container_content_at(struct sway_node *parent, double lx, double ly, struct wlr_surface **surface, double *sx, double *sy) { if (!sway_assert(node_is_view(parent), "Expected a view")) { return NULL; } struct sway_container *container = parent->sway_container; struct wlr_box box = { .x = container->pending.content_x, .y = container->pending.content_y, .width = container->pending.content_width, .height = container->pending.content_height, }; if (wlr_box_contains_point(&box, lx, ly)) { surface_at_view(parent->sway_container, lx, ly, surface, sx, sy); return container; } return NULL; } static struct sway_container *view_container_at(struct sway_node *parent, double lx, double ly, struct wlr_surface **surface, double *sx, double *sy) { if (!sway_assert(node_is_view(parent), "Expected a view")) { return NULL; } struct sway_container *container = parent->sway_container; struct wlr_box box = { .x = container->pending.x, .y = container->pending.y, .width = container->pending.width, .height = container->pending.height, }; if (wlr_box_contains_point(&box, lx, ly)) { surface_at_view(parent->sway_container, lx, ly, surface, sx, sy); return container; } return NULL; } struct sway_container *tiling_container_at(struct sway_node *parent, double lx, double ly, struct wlr_surface **surface, double *sx, double *sy) { if (node_is_view(parent)) { return view_container_at(parent, lx, ly, surface, sx, sy); } if (!node_get_children(parent)) { return NULL; } switch (node_get_layout(parent)) { case L_HORIZ: case L_VERT: return container_at_linear(parent, lx, ly, surface, sx, sy); case L_TABBED: return container_at_tabbed(parent, lx, ly, surface, sx, sy); case L_STACKED: return container_at_stacked(parent, lx, ly, surface, sx, sy); case L_NONE: return NULL; } return NULL; } static bool surface_is_popup(struct wlr_surface *surface) { while (!wlr_surface_is_xdg_surface(surface)) { if (!wlr_surface_is_subsurface(surface)) { return false; } struct wlr_subsurface *subsurface = wlr_subsurface_from_wlr_surface(surface); surface = subsurface->parent; } struct wlr_xdg_surface *xdg_surface = wlr_xdg_surface_from_wlr_surface(surface); return xdg_surface->role == WLR_XDG_SURFACE_ROLE_POPUP; } struct sway_container *container_at(struct sway_workspace *workspace, double lx, double ly, struct wlr_surface **surface, double *sx, double *sy) { struct sway_container *c; struct sway_seat *seat = input_manager_current_seat(); struct sway_container *focus = seat_get_focused_container(seat); bool is_floating = focus && container_is_floating_or_child(focus); // Focused view's popups if (focus && focus->view) { c = surface_at_view(focus, lx, ly, surface, sx, sy); if (c && surface_is_popup(*surface)) { return c; } *surface = NULL; } // Floating if ((c = floating_container_at(lx, ly, surface ,sx ,sy))) { return c; } // Tiling (focused) if (focus && focus->view && !is_floating) { if ((c = view_container_content_at(&focus->node, lx, ly, surface, sx, sy))) { return c; } } // Tiling (non-focused) if ((c = tiling_container_at(&workspace->node, lx, ly, surface, sx, sy))) { return c; } return NULL; } void container_for_each_child(struct sway_container *container, void (*f)(struct sway_container *container, void *data), void *data) { if (container->pending.children) { for (int i = 0; i < container->pending.children->length; ++i) { struct sway_container *child = container->pending.children->items[i]; f(child, data); container_for_each_child(child, f, data); } } } struct sway_container *container_obstructing_fullscreen_container(struct sway_container *container) { struct sway_workspace *workspace = container->pending.workspace; if (workspace && workspace->fullscreen && !container_is_fullscreen_or_child(container)) { if (container_is_transient_for(container, workspace->fullscreen)) { return NULL; } return workspace->fullscreen; } struct sway_container *fullscreen_global = root->fullscreen_global; if (fullscreen_global && container != fullscreen_global && !container_has_ancestor(container, fullscreen_global)) { if (container_is_transient_for(container, fullscreen_global)) { return NULL; } return fullscreen_global; } return NULL; } bool container_has_ancestor(struct sway_container *descendant, struct sway_container *ancestor) { while (descendant) { descendant = descendant->pending.parent; if (descendant == ancestor) { return true; } } return false; } void container_damage_whole(struct sway_container *container) { for (int i = 0; i < root->outputs->length; ++i) { struct sway_output *output = root->outputs->items[i]; output_damage_whole_container(output, container); } } /** * Return the output which will be used for scale purposes. * This is the most recently entered output. */ struct sway_output *container_get_effective_output(struct sway_container *con) { if (con->outputs->length == 0) { return NULL; } return con->outputs->items[con->outputs->length - 1]; } static void render_titlebar_text_texture(struct sway_output *output, struct sway_container *con, struct wlr_texture **texture, struct border_colors *class, bool pango_markup, char *text) { double scale = output->wlr_output->scale; int width = 0; int height = config->font_height * scale; int baseline; // We must use a non-nil cairo_t for cairo_set_font_options to work. // Therefore, we cannot use cairo_create(NULL). cairo_surface_t *dummy_surface = cairo_image_surface_create( CAIRO_FORMAT_ARGB32, 0, 0); cairo_t *c = cairo_create(dummy_surface); cairo_set_antialias(c, CAIRO_ANTIALIAS_BEST); cairo_font_options_t *fo = cairo_font_options_create(); cairo_font_options_set_hint_style(fo, CAIRO_HINT_STYLE_FULL); if (output->wlr_output->subpixel == WL_OUTPUT_SUBPIXEL_NONE) { cairo_font_options_set_antialias(fo, CAIRO_ANTIALIAS_GRAY); } else { cairo_font_options_set_antialias(fo, CAIRO_ANTIALIAS_SUBPIXEL); cairo_font_options_set_subpixel_order(fo, to_cairo_subpixel_order(output->wlr_output->subpixel)); } cairo_set_font_options(c, fo); get_text_size(c, config->font, &width, NULL, &baseline, scale, config->pango_markup, "%s", text); cairo_surface_destroy(dummy_surface); cairo_destroy(c); if (width == 0 || height == 0) { return; } if (height > config->font_height * scale) { height = config->font_height * scale; } cairo_surface_t *surface = cairo_image_surface_create( CAIRO_FORMAT_ARGB32, width, height); cairo_status_t status = cairo_surface_status(surface); if (status != CAIRO_STATUS_SUCCESS) { sway_log(SWAY_ERROR, "cairo_image_surface_create failed: %s", cairo_status_to_string(status)); return; } cairo_t *cairo = cairo_create(surface); cairo_set_antialias(cairo, CAIRO_ANTIALIAS_BEST); cairo_set_font_options(cairo, fo); cairo_font_options_destroy(fo); cairo_set_source_rgba(cairo, class->background[0], class->background[1], class->background[2], class->background[3]); cairo_paint(cairo); PangoContext *pango = pango_cairo_create_context(cairo); cairo_set_source_rgba(cairo, class->text[0], class->text[1], class->text[2], class->text[3]); cairo_move_to(cairo, 0, config->font_baseline * scale - baseline); render_text(cairo, config->font, scale, pango_markup, "%s", text); cairo_surface_flush(surface); unsigned char *data = cairo_image_surface_get_data(surface); int stride = cairo_image_surface_get_stride(surface); struct wlr_renderer *renderer = output->wlr_output->renderer; *texture = wlr_texture_from_pixels( renderer, DRM_FORMAT_ARGB8888, stride, width, height, data); cairo_surface_destroy(surface); g_object_unref(pango); cairo_destroy(cairo); } static void update_title_texture(struct sway_container *con, struct wlr_texture **texture, struct border_colors *class) { struct sway_output *output = container_get_effective_output(con); if (!output) { return; } if (*texture) { wlr_texture_destroy(*texture); *texture = NULL; } if (!con->formatted_title) { return; } render_titlebar_text_texture(output, con, texture, class, config->pango_markup, con->formatted_title); } void container_update_title_textures(struct sway_container *container) { update_title_texture(container, &container->title_focused, &config->border_colors.focused); update_title_texture(container, &container->title_focused_inactive, &config->border_colors.focused_inactive); update_title_texture(container, &container->title_unfocused, &config->border_colors.unfocused); update_title_texture(container, &container->title_urgent, &config->border_colors.urgent); update_title_texture(container, &container->title_focused_tab_title, &config->border_colors.focused_tab_title); container_damage_whole(container); } /** * Calculate and return the length of the tree representation. * An example tree representation is: V[Terminal, Firefox] * If buffer is not NULL, also populate the buffer with the representation. */ size_t container_build_representation(enum sway_container_layout layout, list_t *children, char *buffer) { size_t len = 2; switch (layout) { case L_VERT: lenient_strcat(buffer, "V["); break; case L_HORIZ: lenient_strcat(buffer, "H["); break; case L_TABBED: lenient_strcat(buffer, "T["); break; case L_STACKED: lenient_strcat(buffer, "S["); break; case L_NONE: lenient_strcat(buffer, "D["); break; } for (int i = 0; i < children->length; ++i) { if (i != 0) { ++len; lenient_strcat(buffer, " "); } struct sway_container *child = children->items[i]; const char *identifier = NULL; if (child->view) { identifier = view_get_class(child->view); if (!identifier) { identifier = view_get_app_id(child->view); } } else { identifier = child->formatted_title; } if (identifier) { len += strlen(identifier); lenient_strcat(buffer, identifier); } else { len += 6; lenient_strcat(buffer, "(null)"); } } ++len; lenient_strcat(buffer, "]"); return len; } void container_update_representation(struct sway_container *con) { if (!con->view) { size_t len = container_build_representation(con->pending.layout, con->pending.children, NULL); free(con->formatted_title); con->formatted_title = calloc(len + 1, sizeof(char)); if (!sway_assert(con->formatted_title, "Unable to allocate title string")) { return; } container_build_representation(con->pending.layout, con->pending.children, con->formatted_title); container_update_title_textures(con); } if (con->pending.parent) { container_update_representation(con->pending.parent); } else if (con->pending.workspace) { workspace_update_representation(con->pending.workspace); } } size_t container_titlebar_height(void) { return config->font_height + config->titlebar_v_padding * 2; } void floating_calculate_constraints(int *min_width, int *max_width, int *min_height, int *max_height) { if (config->floating_minimum_width == -1) { // no minimum *min_width = 0; } else if (config->floating_minimum_width == 0) { // automatic *min_width = 75; } else { *min_width = config->floating_minimum_width; } if (config->floating_minimum_height == -1) { // no minimum *min_height = 0; } else if (config->floating_minimum_height == 0) { // automatic *min_height = 50; } else { *min_height = config->floating_minimum_height; } struct wlr_box *box = wlr_output_layout_get_box(root->output_layout, NULL); if (config->floating_maximum_width == -1) { // no maximum *max_width = INT_MAX; } else if (config->floating_maximum_width == 0) { // automatic *max_width = box->width; } else { *max_width = config->floating_maximum_width; } if (config->floating_maximum_height == -1) { // no maximum *max_height = INT_MAX; } else if (config->floating_maximum_height == 0) { // automatic *max_height = box->height; } else { *max_height = config->floating_maximum_height; } } static void floating_natural_resize(struct sway_container *con) { int min_width, max_width, min_height, max_height; floating_calculate_constraints(&min_width, &max_width, &min_height, &max_height); if (!con->view) { con->pending.width = fmax(min_width, fmin(con->pending.width, max_width)); con->pending.height = fmax(min_height, fmin(con->pending.height, max_height)); } else { struct sway_view *view = con->view; con->pending.content_width = fmax(min_width, fmin(view->natural_width, max_width)); con->pending.content_height = fmax(min_height, fmin(view->natural_height, max_height)); container_set_geometry_from_content(con); } } void container_floating_resize_and_center(struct sway_container *con) { struct sway_workspace *ws = con->pending.workspace; if (!ws) { // On scratchpad, just resize floating_natural_resize(con); return; } struct wlr_box *ob = wlr_output_layout_get_box(root->output_layout, ws->output->wlr_output); if (!ob) { // On NOOP output. Will be called again when moved to an output con->pending.x = 0; con->pending.y = 0; con->pending.width = 0; con->pending.height = 0; return; } floating_natural_resize(con); if (!con->view) { if (con->pending.width > ws->width || con->pending.height > ws->height) { con->pending.x = ob->x + (ob->width - con->pending.width) / 2; con->pending.y = ob->y + (ob->height - con->pending.height) / 2; } else { con->pending.x = ws->x + (ws->width - con->pending.width) / 2; con->pending.y = ws->y + (ws->height - con->pending.height) / 2; } } else { if (con->pending.content_width > ws->width || con->pending.content_height > ws->height) { con->pending.content_x = ob->x + (ob->width - con->pending.content_width) / 2; con->pending.content_y = ob->y + (ob->height - con->pending.content_height) / 2; } else { con->pending.content_x = ws->x + (ws->width - con->pending.content_width) / 2; con->pending.content_y = ws->y + (ws->height - con->pending.content_height) / 2; } // If the view's border is B_NONE then these properties are ignored. con->pending.border_top = con->pending.border_bottom = true; con->pending.border_left = con->pending.border_right = true; container_set_geometry_from_content(con); } } void container_floating_set_default_size(struct sway_container *con) { if (!sway_assert(con->pending.workspace, "Expected a container on a workspace")) { return; } int min_width, max_width, min_height, max_height; floating_calculate_constraints(&min_width, &max_width, &min_height, &max_height); struct wlr_box *box = calloc(1, sizeof(struct wlr_box)); workspace_get_box(con->pending.workspace, box); double width = fmax(min_width, fmin(box->width * 0.5, max_width)); double height = fmax(min_height, fmin(box->height * 0.75, max_height)); if (!con->view) { con->pending.width = width; con->pending.height = height; } else { con->pending.content_width = width; con->pending.content_height = height; container_set_geometry_from_content(con); } free(box); } /** * Indicate to clients in this container that they are participating in (or * have just finished) an interactive resize */ void container_set_resizing(struct sway_container *con, bool resizing) { if (!con) { return; } if (con->view) { if (con->view->impl->set_resizing) { con->view->impl->set_resizing(con->view, resizing); } } else { for (int i = 0; i < con->pending.children->length; ++i ) { struct sway_container *child = con->pending.children->items[i]; container_set_resizing(child, resizing); } } } void container_set_floating(struct sway_container *container, bool enable) { if (container_is_floating(container) == enable) { return; } struct sway_seat *seat = input_manager_current_seat(); struct sway_workspace *workspace = container->pending.workspace; struct sway_container *focus = seat_get_focused_container(seat); bool set_focus = focus == container; if (enable) { struct sway_container *old_parent = container->pending.parent; container_detach(container); workspace_add_floating(workspace, container); if (container->view) { view_set_tiled(container->view, false); if (container->view->using_csd) { container->saved_border = container->pending.border; container->pending.border = B_CSD; if (container->view->xdg_decoration) { struct sway_xdg_decoration *deco = container->view->xdg_decoration; wlr_xdg_toplevel_decoration_v1_set_mode(deco->wlr_xdg_decoration, WLR_XDG_TOPLEVEL_DECORATION_V1_MODE_CLIENT_SIDE); } } } container_floating_set_default_size(container); container_floating_resize_and_center(container); if (old_parent) { if (set_focus) { seat_set_raw_focus(seat, &old_parent->node); seat_set_raw_focus(seat, &container->node); } container_reap_empty(old_parent); } } else { // Returning to tiled if (container->scratchpad) { root_scratchpad_remove_container(container); } container_detach(container); struct sway_container *reference = seat_get_focus_inactive_tiling(seat, workspace); if (reference) { if (reference->view) { container_add_sibling(reference, container, 1); } else { container_add_child(reference, container); } container->pending.width = reference->pending.width; container->pending.height = reference->pending.height; } else { struct sway_container *other = workspace_add_tiling(workspace, container); other->pending.width = workspace->width; other->pending.height = workspace->height; } if (container->view) { view_set_tiled(container->view, true); if (container->view->using_csd) { container->pending.border = container->saved_border; if (container->view->xdg_decoration) { struct sway_xdg_decoration *deco = container->view->xdg_decoration; wlr_xdg_toplevel_decoration_v1_set_mode(deco->wlr_xdg_decoration, WLR_XDG_TOPLEVEL_DECORATION_V1_MODE_SERVER_SIDE); } } } container->width_fraction = 0; container->height_fraction = 0; } container_end_mouse_operation(container); ipc_event_window(container, "floating"); } void container_set_geometry_from_content(struct sway_container *con) { if (!sway_assert(con->view, "Expected a view")) { return; } if (!sway_assert(container_is_floating(con), "Expected a floating view")) { return; } size_t border_width = 0; size_t top = 0; if (con->pending.border != B_CSD && !con->pending.fullscreen_mode) { border_width = con->pending.border_thickness * (con->pending.border != B_NONE); top = con->pending.border == B_NORMAL ? container_titlebar_height() : border_width; } con->pending.x = con->pending.content_x - border_width; con->pending.y = con->pending.content_y - top; con->pending.width = con->pending.content_width + border_width * 2; con->pending.height = top + con->pending.content_height + border_width; node_set_dirty(&con->node); } bool container_is_floating(struct sway_container *container) { if (!container->pending.parent && container->pending.workspace && list_find(container->pending.workspace->floating, container) != -1) { return true; } if (container->scratchpad) { return true; } return false; } bool container_is_current_floating(struct sway_container *container) { if (!container->current.parent && container->current.workspace && list_find(container->current.workspace->floating, container) != -1) { return true; } if (container->scratchpad) { return true; } return false; } void container_get_box(struct sway_container *container, struct wlr_box *box) { box->x = container->pending.x; box->y = container->pending.y; box->width = container->pending.width; box->height = container->pending.height; } /** * Translate the container's position as well as all children. */ void container_floating_translate(struct sway_container *con, double x_amount, double y_amount) { con->pending.x += x_amount; con->pending.y += y_amount; con->pending.content_x += x_amount; con->pending.content_y += y_amount; if (con->pending.children) { for (int i = 0; i < con->pending.children->length; ++i) { struct sway_container *child = con->pending.children->items[i]; container_floating_translate(child, x_amount, y_amount); } } node_set_dirty(&con->node); } /** * Choose an output for the floating container's new position. * * If the center of the container intersects an output then we'll choose that * one, otherwise we'll choose whichever output is closest to the container's * center. */ struct sway_output *container_floating_find_output(struct sway_container *con) { double center_x = con->pending.x + con->pending.width / 2; double center_y = con->pending.y + con->pending.height / 2; struct sway_output *closest_output = NULL; double closest_distance = DBL_MAX; for (int i = 0; i < root->outputs->length; ++i) { struct sway_output *output = root->outputs->items[i]; struct wlr_box output_box; double closest_x, closest_y; output_get_box(output, &output_box); wlr_box_closest_point(&output_box, center_x, center_y, &closest_x, &closest_y); if (center_x == closest_x && center_y == closest_y) { // The center of the floating container is on this output return output; } double x_dist = closest_x - center_x; double y_dist = closest_y - center_y; double distance = x_dist * x_dist + y_dist * y_dist; if (distance < closest_distance) { closest_output = output; closest_distance = distance; } } return closest_output; } void container_floating_move_to(struct sway_container *con, double lx, double ly) { if (!sway_assert(container_is_floating(con), "Expected a floating container")) { return; } container_floating_translate(con, lx - con->pending.x, ly - con->pending.y); if (container_is_scratchpad_hidden(con)) { return; } struct sway_workspace *old_workspace = con->pending.workspace; struct sway_output *new_output = container_floating_find_output(con); if (!sway_assert(new_output, "Unable to find any output")) { return; } struct sway_workspace *new_workspace = output_get_active_workspace(new_output); if (new_workspace && old_workspace != new_workspace) { container_detach(con); workspace_add_floating(new_workspace, con); arrange_workspace(old_workspace); arrange_workspace(new_workspace); workspace_detect_urgent(old_workspace); workspace_detect_urgent(new_workspace); } } void container_floating_move_to_center(struct sway_container *con) { if (!sway_assert(container_is_floating(con), "Expected a floating container")) { return; } struct sway_workspace *ws = con->pending.workspace; double new_lx = ws->x + (ws->width - con->pending.width) / 2; double new_ly = ws->y + (ws->height - con->pending.height) / 2; container_floating_translate(con, new_lx - con->pending.x, new_ly - con->pending.y); } static bool find_urgent_iterator(struct sway_container *con, void *data) { return con->view && view_is_urgent(con->view); } bool container_has_urgent_child(struct sway_container *container) { return container_find_child(container, find_urgent_iterator, NULL); } void container_end_mouse_operation(struct sway_container *container) { struct sway_seat *seat; wl_list_for_each(seat, &server.input->seats, link) { seatop_unref(seat, container); } } static bool devid_from_fd(int fd, dev_t *devid) { struct stat stat; if (fstat(fd, &stat) != 0) { sway_log_errno(SWAY_ERROR, "fstat failed"); return false; } *devid = stat.st_rdev; return true; } static void set_fullscreen(struct sway_container *con, bool enable) { if (!con->view) { return; } if (con->view->impl->set_fullscreen) { con->view->impl->set_fullscreen(con->view, enable); if (con->view->foreign_toplevel) { wlr_foreign_toplevel_handle_v1_set_fullscreen( con->view->foreign_toplevel, enable); } } if (!server.linux_dmabuf_v1 || !con->view->surface) { return; } if (!enable) { wlr_linux_dmabuf_v1_set_surface_feedback(server.linux_dmabuf_v1, con->view->surface, NULL); return; } if (!con->pending.workspace || !con->pending.workspace->output) { return; } struct sway_output *output = con->pending.workspace->output; struct wlr_output *wlr_output = output->wlr_output; // TODO: add wlroots helpers for all of this stuff const struct wlr_drm_format_set *renderer_formats = wlr_renderer_get_dmabuf_texture_formats(server.wlr_renderer); assert(renderer_formats); int renderer_drm_fd = wlr_renderer_get_drm_fd(server.wlr_renderer); int backend_drm_fd = wlr_backend_get_drm_fd(wlr_output->backend); if (renderer_drm_fd < 0 || backend_drm_fd < 0) { return; } dev_t render_dev, scanout_dev; if (!devid_from_fd(renderer_drm_fd, &render_dev) || !devid_from_fd(backend_drm_fd, &scanout_dev)) { return; } const struct wlr_drm_format_set *output_formats = wlr_output_get_primary_formats(output->wlr_output, WLR_BUFFER_CAP_DMABUF); if (!output_formats) { return; } struct wlr_drm_format_set scanout_formats = {0}; if (!wlr_drm_format_set_intersect(&scanout_formats, output_formats, renderer_formats)) { return; } struct wlr_linux_dmabuf_feedback_v1_tranche tranches[] = { { .target_device = scanout_dev, .flags = ZWP_LINUX_DMABUF_FEEDBACK_V1_TRANCHE_FLAGS_SCANOUT, .formats = &scanout_formats, }, { .target_device = render_dev, .formats = renderer_formats, }, }; const struct wlr_linux_dmabuf_feedback_v1 feedback = { .main_device = render_dev, .tranches = tranches, .tranches_len = sizeof(tranches) / sizeof(tranches[0]), }; wlr_linux_dmabuf_v1_set_surface_feedback(server.linux_dmabuf_v1, con->view->surface, &feedback); wlr_drm_format_set_finish(&scanout_formats); } static void container_fullscreen_workspace(struct sway_container *con) { if (!sway_assert(con->pending.fullscreen_mode == FULLSCREEN_NONE, "Expected a non-fullscreen container")) { return; } set_fullscreen(con, true); con->pending.fullscreen_mode = FULLSCREEN_WORKSPACE; con->saved_x = con->pending.x; con->saved_y = con->pending.y; con->saved_width = con->pending.width; con->saved_height = con->pending.height; if (con->pending.workspace) { con->pending.workspace->fullscreen = con; struct sway_seat *seat; struct sway_workspace *focus_ws; wl_list_for_each(seat, &server.input->seats, link) { focus_ws = seat_get_focused_workspace(seat); if (focus_ws == con->pending.workspace) { seat_set_focus_container(seat, con); } else { struct sway_node *focus = seat_get_focus_inactive(seat, &root->node); seat_set_raw_focus(seat, &con->node); seat_set_raw_focus(seat, focus); } } } container_end_mouse_operation(con); ipc_event_window(con, "fullscreen_mode"); } static void container_fullscreen_global(struct sway_container *con) { if (!sway_assert(con->pending.fullscreen_mode == FULLSCREEN_NONE, "Expected a non-fullscreen container")) { return; } set_fullscreen(con, true); root->fullscreen_global = con; con->saved_x = con->pending.x; con->saved_y = con->pending.y; con->saved_width = con->pending.width; con->saved_height = con->pending.height; struct sway_seat *seat; wl_list_for_each(seat, &server.input->seats, link) { struct sway_container *focus = seat_get_focused_container(seat); if (focus && focus != con) { seat_set_focus_container(seat, con); } } con->pending.fullscreen_mode = FULLSCREEN_GLOBAL; container_end_mouse_operation(con); ipc_event_window(con, "fullscreen_mode"); } void container_fullscreen_disable(struct sway_container *con) { if (!sway_assert(con->pending.fullscreen_mode != FULLSCREEN_NONE, "Expected a fullscreen container")) { return; } set_fullscreen(con, false); if (container_is_floating(con)) { con->pending.x = con->saved_x; con->pending.y = con->saved_y; con->pending.width = con->saved_width; con->pending.height = con->saved_height; } if (con->pending.fullscreen_mode == FULLSCREEN_WORKSPACE) { if (con->pending.workspace) { con->pending.workspace->fullscreen = NULL; if (container_is_floating(con)) { struct sway_output *output = container_floating_find_output(con); if (con->pending.workspace->output != output) { container_floating_move_to_center(con); } } } } else { root->fullscreen_global = NULL; } // If the container was mapped as fullscreen and set as floating by // criteria, it needs to be reinitialized as floating to get the proper // size and location if (container_is_floating(con) && (con->pending.width == 0 || con->pending.height == 0)) { container_floating_resize_and_center(con); } con->pending.fullscreen_mode = FULLSCREEN_NONE; container_end_mouse_operation(con); ipc_event_window(con, "fullscreen_mode"); if (con->scratchpad) { struct sway_seat *seat; wl_list_for_each(seat, &server.input->seats, link) { struct sway_container *focus = seat_get_focused_container(seat); if (focus == con || container_has_ancestor(focus, con)) { seat_set_focus(seat, seat_get_focus_inactive(seat, &root->node)); } } } } void container_set_fullscreen(struct sway_container *con, enum sway_fullscreen_mode mode) { if (con->pending.fullscreen_mode == mode) { return; } switch (mode) { case FULLSCREEN_NONE: container_fullscreen_disable(con); break; case FULLSCREEN_WORKSPACE: if (root->fullscreen_global) { container_fullscreen_disable(root->fullscreen_global); } if (con->pending.workspace && con->pending.workspace->fullscreen) { container_fullscreen_disable(con->pending.workspace->fullscreen); } container_fullscreen_workspace(con); break; case FULLSCREEN_GLOBAL: if (root->fullscreen_global) { container_fullscreen_disable(root->fullscreen_global); } if (con->pending.fullscreen_mode == FULLSCREEN_WORKSPACE) { container_fullscreen_disable(con); } container_fullscreen_global(con); break; } } struct sway_container *container_toplevel_ancestor( struct sway_container *container) { while (container->pending.parent) { container = container->pending.parent; } return container; } bool container_is_floating_or_child(struct sway_container *container) { return container_is_floating(container_toplevel_ancestor(container)); } bool container_is_fullscreen_or_child(struct sway_container *container) { do { if (container->pending.fullscreen_mode) { return true; } container = container->pending.parent; } while (container); return false; } static void surface_send_enter_iterator(struct wlr_surface *surface, int x, int y, void *data) { struct wlr_output *wlr_output = data; wlr_surface_send_enter(surface, wlr_output); } static void surface_send_leave_iterator(struct wlr_surface *surface, int x, int y, void *data) { struct wlr_output *wlr_output = data; wlr_surface_send_leave(surface, wlr_output); } void container_discover_outputs(struct sway_container *con) { struct wlr_box con_box = { .x = con->current.x, .y = con->current.y, .width = con->current.width, .height = con->current.height, }; struct sway_output *old_output = container_get_effective_output(con); for (int i = 0; i < root->outputs->length; ++i) { struct sway_output *output = root->outputs->items[i]; struct wlr_box output_box; output_get_box(output, &output_box); struct wlr_box intersection; bool intersects = wlr_box_intersection(&intersection, &con_box, &output_box); int index = list_find(con->outputs, output); if (intersects && index == -1) { // Send enter sway_log(SWAY_DEBUG, "Container %p entered output %p", con, output); if (con->view) { view_for_each_surface(con->view, surface_send_enter_iterator, output->wlr_output); if (con->view->foreign_toplevel) { wlr_foreign_toplevel_handle_v1_output_enter( con->view->foreign_toplevel, output->wlr_output); } } list_add(con->outputs, output); } else if (!intersects && index != -1) { // Send leave sway_log(SWAY_DEBUG, "Container %p left output %p", con, output); if (con->view) { view_for_each_surface(con->view, surface_send_leave_iterator, output->wlr_output); if (con->view->foreign_toplevel) { wlr_foreign_toplevel_handle_v1_output_leave( con->view->foreign_toplevel, output->wlr_output); } } list_del(con->outputs, index); } } struct sway_output *new_output = container_get_effective_output(con); double old_scale = old_output && old_output->enabled ? old_output->wlr_output->scale : -1; double new_scale = new_output ? new_output->wlr_output->scale : -1; if (old_scale != new_scale) { container_update_title_textures(con); container_update_marks_textures(con); } } enum sway_container_layout container_parent_layout(struct sway_container *con) { if (con->pending.parent) { return con->pending.parent->pending.layout; } if (con->pending.workspace) { return con->pending.workspace->layout; } return L_NONE; } enum sway_container_layout container_current_parent_layout( struct sway_container *con) { if (con->current.parent) { return con->current.parent->current.layout; } return con->current.workspace->current.layout; } list_t *container_get_siblings(struct sway_container *container) { if (container->pending.parent) { return container->pending.parent->pending.children; } if (container_is_scratchpad_hidden(container)) { return NULL; } if (list_find(container->pending.workspace->tiling, container) != -1) { return container->pending.workspace->tiling; } return container->pending.workspace->floating; } int container_sibling_index(struct sway_container *child) { return list_find(container_get_siblings(child), child); } list_t *container_get_current_siblings(struct sway_container *container) { if (container->current.parent) { return container->current.parent->current.children; } return container->current.workspace->current.tiling; } void container_handle_fullscreen_reparent(struct sway_container *con) { if (con->pending.fullscreen_mode != FULLSCREEN_WORKSPACE || !con->pending.workspace || con->pending.workspace->fullscreen == con) { return; } if (con->pending.workspace->fullscreen) { container_fullscreen_disable(con->pending.workspace->fullscreen); } con->pending.workspace->fullscreen = con; arrange_workspace(con->pending.workspace); } static void set_workspace(struct sway_container *container, void *data) { container->pending.workspace = container->pending.parent->pending.workspace; } void container_insert_child(struct sway_container *parent, struct sway_container *child, int i) { if (child->pending.workspace) { container_detach(child); } list_insert(parent->pending.children, i, child); child->pending.parent = parent; child->pending.workspace = parent->pending.workspace; container_for_each_child(child, set_workspace, NULL); container_handle_fullscreen_reparent(child); container_update_representation(parent); } void container_add_sibling(struct sway_container *fixed, struct sway_container *active, bool after) { if (active->pending.workspace) { container_detach(active); } list_t *siblings = container_get_siblings(fixed); int index = list_find(siblings, fixed); list_insert(siblings, index + after, active); active->pending.parent = fixed->pending.parent; active->pending.workspace = fixed->pending.workspace; container_for_each_child(active, set_workspace, NULL); container_handle_fullscreen_reparent(active); container_update_representation(active); } void container_add_child(struct sway_container *parent, struct sway_container *child) { if (child->pending.workspace) { container_detach(child); } list_add(parent->pending.children, child); child->pending.parent = parent; child->pending.workspace = parent->pending.workspace; container_for_each_child(child, set_workspace, NULL); container_handle_fullscreen_reparent(child); container_update_representation(parent); node_set_dirty(&child->node); node_set_dirty(&parent->node); } void container_detach(struct sway_container *child) { if (child->pending.fullscreen_mode == FULLSCREEN_WORKSPACE) { child->pending.workspace->fullscreen = NULL; } if (child->pending.fullscreen_mode == FULLSCREEN_GLOBAL) { root->fullscreen_global = NULL; } struct sway_container *old_parent = child->pending.parent; struct sway_workspace *old_workspace = child->pending.workspace; list_t *siblings = container_get_siblings(child); if (siblings) { int index = list_find(siblings, child); if (index != -1) { list_del(siblings, index); } } child->pending.parent = NULL; child->pending.workspace = NULL; container_for_each_child(child, set_workspace, NULL); if (old_parent) { container_update_representation(old_parent); node_set_dirty(&old_parent->node); } else if (old_workspace) { workspace_update_representation(old_workspace); node_set_dirty(&old_workspace->node); } node_set_dirty(&child->node); } void container_replace(struct sway_container *container, struct sway_container *replacement) { enum sway_fullscreen_mode fullscreen = container->pending.fullscreen_mode; bool scratchpad = container->scratchpad; struct sway_workspace *ws = NULL; if (fullscreen != FULLSCREEN_NONE) { container_fullscreen_disable(container); } if (scratchpad) { ws = container->pending.workspace; root_scratchpad_show(container); root_scratchpad_remove_container(container); } if (container->pending.parent || container->pending.workspace) { float width_fraction = container->width_fraction; float height_fraction = container->height_fraction; container_add_sibling(container, replacement, 1); container_detach(container); replacement->width_fraction = width_fraction; replacement->height_fraction = height_fraction; } if (scratchpad) { root_scratchpad_add_container(replacement, ws); } switch (fullscreen) { case FULLSCREEN_WORKSPACE: container_fullscreen_workspace(replacement); break; case FULLSCREEN_GLOBAL: container_fullscreen_global(replacement); break; case FULLSCREEN_NONE: // noop break; } } struct sway_container *container_split(struct sway_container *child, enum sway_container_layout layout) { // i3 doesn't split singleton H/V containers // https://github.com/i3/i3/blob/3cd1c45eba6de073bc4300eebb4e1cc1a0c4479a/src/tree.c#L354 if (child->pending.parent || child->pending.workspace) { list_t *siblings = container_get_siblings(child); if (siblings->length == 1) { enum sway_container_layout current = container_parent_layout(child); if (container_is_floating(child)) { current = L_NONE; } if (current == L_HORIZ || current == L_VERT) { if (child->pending.parent) { child->pending.parent->pending.layout = layout; container_update_representation(child->pending.parent); } else { child->pending.workspace->layout = layout; workspace_update_representation(child->pending.workspace); } return child; } } } struct sway_seat *seat = input_manager_get_default_seat(); bool set_focus = (seat_get_focus(seat) == &child->node); if (container_is_floating(child) && child->view) { view_set_tiled(child->view, true); if (child->view->using_csd) { child->pending.border = child->saved_border; } } struct sway_container *cont = container_create(NULL); cont->pending.width = child->pending.width; cont->pending.height = child->pending.height; cont->width_fraction = child->width_fraction; cont->height_fraction = child->height_fraction; cont->pending.x = child->pending.x; cont->pending.y = child->pending.y; cont->pending.layout = layout; container_replace(child, cont); container_add_child(cont, child); if (set_focus) { seat_set_raw_focus(seat, &cont->node); if (cont->pending.fullscreen_mode == FULLSCREEN_GLOBAL) { seat_set_focus(seat, &child->node); } else { seat_set_raw_focus(seat, &child->node); } } return cont; } bool container_is_transient_for(struct sway_container *child, struct sway_container *ancestor) { return config->popup_during_fullscreen == POPUP_SMART && child->view && ancestor->view && view_is_transient_for(child->view, ancestor->view); } static bool find_by_mark_iterator(struct sway_container *con, void *data) { char *mark = data; return container_has_mark(con, mark); } struct sway_container *container_find_mark(char *mark) { return root_find_container(find_by_mark_iterator, mark); } bool container_find_and_unmark(char *mark) { struct sway_container *con = root_find_container( find_by_mark_iterator, mark); if (!con) { return false; } for (int i = 0; i < con->marks->length; ++i) { char *con_mark = con->marks->items[i]; if (strcmp(con_mark, mark) == 0) { free(con_mark); list_del(con->marks, i); container_update_marks_textures(con); ipc_event_window(con, "mark"); return true; } } return false; } void container_clear_marks(struct sway_container *con) { for (int i = 0; i < con->marks->length; ++i) { free(con->marks->items[i]); } con->marks->length = 0; ipc_event_window(con, "mark"); } bool container_has_mark(struct sway_container *con, char *mark) { for (int i = 0; i < con->marks->length; ++i) { char *item = con->marks->items[i]; if (strcmp(item, mark) == 0) { return true; } } return false; } void container_add_mark(struct sway_container *con, char *mark) { list_add(con->marks, strdup(mark)); ipc_event_window(con, "mark"); } static void update_marks_texture(struct sway_container *con, struct wlr_texture **texture, struct border_colors *class) { struct sway_output *output = container_get_effective_output(con); if (!output) { return; } if (*texture) { wlr_texture_destroy(*texture); *texture = NULL; } if (!con->marks->length) { return; } size_t len = 0; for (int i = 0; i < con->marks->length; ++i) { char *mark = con->marks->items[i]; if (mark[0] != '_') { len += strlen(mark) + 2; } } char *buffer = calloc(len + 1, 1); char *part = malloc(len + 1); if (!sway_assert(buffer && part, "Unable to allocate memory")) { free(buffer); return; } for (int i = 0; i < con->marks->length; ++i) { char *mark = con->marks->items[i]; if (mark[0] != '_') { sprintf(part, "[%s]", mark); strcat(buffer, part); } } free(part); render_titlebar_text_texture(output, con, texture, class, false, buffer); free(buffer); } void container_update_marks_textures(struct sway_container *con) { if (!config->show_marks) { return; } update_marks_texture(con, &con->marks_focused, &config->border_colors.focused); update_marks_texture(con, &con->marks_focused_inactive, &config->border_colors.focused_inactive); update_marks_texture(con, &con->marks_unfocused, &config->border_colors.unfocused); update_marks_texture(con, &con->marks_urgent, &config->border_colors.urgent); update_marks_texture(con, &con->marks_focused_tab_title, &config->border_colors.focused_tab_title); container_damage_whole(con); } void container_raise_floating(struct sway_container *con) { // Bring container to front by putting it at the end of the floating list. struct sway_container *floater = container_toplevel_ancestor(con); if (container_is_floating(floater) && floater->pending.workspace) { list_move_to_end(floater->pending.workspace->floating, floater); node_set_dirty(&floater->pending.workspace->node); } } bool container_is_scratchpad_hidden(struct sway_container *con) { return con->scratchpad && !con->pending.workspace; } bool container_is_scratchpad_hidden_or_child(struct sway_container *con) { con = container_toplevel_ancestor(con); return con->scratchpad && !con->pending.workspace; } bool container_is_sticky(struct sway_container *con) { return con->is_sticky && container_is_floating(con); } bool container_is_sticky_or_child(struct sway_container *con) { return container_is_sticky(container_toplevel_ancestor(con)); } static bool is_parallel(enum sway_container_layout first, enum sway_container_layout second) { switch (first) { case L_TABBED: case L_HORIZ: return second == L_TABBED || second == L_HORIZ; case L_STACKED: case L_VERT: return second == L_STACKED || second == L_VERT; default: return false; } } static bool container_is_squashable(struct sway_container *con, struct sway_container *child) { enum sway_container_layout gp_layout = container_parent_layout(con); return (con->pending.layout == L_HORIZ || con->pending.layout == L_VERT) && (child->pending.layout == L_HORIZ || child->pending.layout == L_VERT) && !is_parallel(con->pending.layout, child->pending.layout) && is_parallel(gp_layout, child->pending.layout); } static void container_squash_children(struct sway_container *con) { for (int i = 0; i < con->pending.children->length; i++) { struct sway_container *child = con->pending.children->items[i]; i += container_squash(child); } } int container_squash(struct sway_container *con) { if (!con->pending.children) { return 0; } if (con->pending.children->length != 1) { container_squash_children(con); return 0; } struct sway_container *child = con->pending.children->items[0]; int idx = container_sibling_index(con); int change = 0; if (container_is_squashable(con, child)) { // con and child are a redundant H/V pair. Destroy them. while (child->pending.children->length) { struct sway_container *current = child->pending.children->items[0]; container_detach(current); if (con->pending.parent) { container_insert_child(con->pending.parent, current, idx); } else { workspace_insert_tiling_direct(con->pending.workspace, current, idx); } change++; } // This will also destroy con because child was its only child container_reap_empty(child); change--; } else { container_squash_children(con); } return change; }