#include #include #include #include "workspace.h" #include "layout.h" #include "list.h" #include "log.h" #include "container.h" #include "handlers.h" #include "config.h" #include "stringop.h" swayc_t *active_workspace = NULL; char *workspace_next_name(void) { sway_log(L_DEBUG, "Workspace: Generating new name"); int i; int l = 1; // Scan all workspace bindings to find the next available workspace name, // if none are found/available then default to a number struct sway_mode *mode = config->current_mode; for (i = 0; i < mode->bindings->length; ++i) { struct sway_binding *binding = mode->bindings->items[i]; const char* command = binding->command; list_t *args = split_string(command, " "); if (strcmp("workspace", args->items[0]) == 0 && args->length > 1) { sway_log(L_DEBUG, "Got valid workspace command for target: '%s'", args->items[1]); char* target = malloc(strlen(args->items[1]) + 1); strcpy(target, args->items[1]); while (*target == ' ' || *target == '\t') target++; // Make sure that the command references an actual workspace // not a command about workspaces if (strcmp(target, "next") == 0 || strcmp(target, "prev") == 0 || strcmp(target, "next_on_output") == 0 || strcmp(target, "prev_on_output") == 0 || strcmp(target, "number") == 0 || strcmp(target, "back_and_forth") == 0 || strcmp(target, "current") == 0) continue; //Make sure that the workspace doesn't already exist if (workspace_find_by_name(target)) { continue; } list_free(args); sway_log(L_DEBUG, "Workspace: Found free name %s", target); return target; } } // As a fall back, get the current number of active workspaces // and return that + 1 for the next workspace's name int ws_num = root_container.children->length; if (ws_num >= 10) { l = 2; } else if (ws_num >= 100) { l = 3; } char *name = malloc(l + 1); sprintf(name, "%d", ws_num++); return name; } swayc_t *workspace_create(const char* name) { swayc_t *parent = get_focused_container(&root_container); while (parent->type != C_OUTPUT) { parent = parent->parent; } return new_workspace(parent, name); } bool workspace_by_name(swayc_t *view, void *data) { return (view->type == C_WORKSPACE) && (strcasecmp(view->name, (char *) data) == 0); } void set_mask(swayc_t *view, void *data) { uint32_t *p = data; if (view->type == C_VIEW) { wlc_view_set_mask(view->handle, *p); } view->visible = (*p == 2); } swayc_t *workspace_find_by_name(const char* name) { return find_container(&root_container, workspace_by_name, (void *) name); } void workspace_output_next() { // Get the index of the workspace in the current output, and change the view to index+1 workspace. // if we're currently focused on the last workspace in the output, switch to the first swayc_t *current_output = active_workspace->parent; int i; for (i = 0; i < current_output->children->length - 1; i++) { if (strcmp((((swayc_t *)current_output->children->items[i])->name), active_workspace->name) == 0) { workspace_switch(current_output->children->items[i + 1]); return; } } workspace_switch(current_output->children->items[0]); } void workspace_next() { // Get the index of the workspace in the current output, and change the view to index+1 workspace. // if we're currently focused on the last workspace in the output, change focus to there // and call workspace_output_next(), as long as another output actually exists swayc_t *current_output = active_workspace->parent; int i; for (i = 0; i < current_output->children->length - 1; i++) { if (strcmp((((swayc_t *)current_output->children->items[i])->name), active_workspace->name) == 0) { workspace_switch(current_output->children->items[i + 1]); return; } } if (root_container.children->length > 1) { for (i = 0; i < root_container.children->length - 1; i++) { if (root_container.children->items[i] == current_output) { workspace_switch(((swayc_t *)root_container.children->items[i + 1])->focused); workspace_output_next(); return; } } // If we're at the last output, then go to the first workspace_switch(((swayc_t *)root_container.children->items[0])->focused); workspace_output_next(); return; } else { workspace_switch(current_output->children->items[0]); } } void workspace_output_prev() { // Get the index of the workspace in the current output, and change the view to index+1 workspace // if we're currently focused on the first workspace in the output, do nothing and return false swayc_t *current_output = active_workspace->parent; int i; for (i = 1; i < current_output->children->length; i++) { if (strcmp((((swayc_t *)current_output->children->items[i])->name), active_workspace->name) == 0) { workspace_switch(current_output->children->items[i - 1]); return; } } workspace_switch(current_output->children->items[current_output->children->length - 1]); } void workspace_prev() { // Get the index of the workspace in the current output, and change the view to index-1 workspace. // if we're currently focused on the last workspace in the output, change focus to there // and call workspace_output_next(), as long as another output actually exists swayc_t *current_output = active_workspace->parent; int i; for (i = 1; i < current_output->children->length; i++) { if (strcmp((((swayc_t *)current_output->children->items[i])->name), active_workspace->name) == 0) { workspace_switch(current_output->children->items[i - 1]); return; } } if (root_container.children->length > 1) { for (i = 1; i < root_container.children->length; i++) { if (root_container.children->items[i] == current_output) { workspace_switch(((swayc_t *)root_container.children->items[i - 1])->focused); workspace_output_next(); return; } } // If we're at the first output, then go to the last workspace_switch(((swayc_t *)root_container.children->items[root_container.children->length-1])->focused); workspace_output_next(); return; } else { workspace_switch(current_output->children->items[current_output->children->length - 1]); } } void workspace_switch(swayc_t *workspace) { swayc_t *ws_output = workspace->parent; while (ws_output->type != C_OUTPUT) { ws_output = ws_output->parent; } // The current workspace of the output our target workspace is in swayc_t *focused_workspace = ws_output->focused; if (workspace != focused_workspace && focused_workspace) { sway_log(L_DEBUG, "workspace: changing from '%s' to '%s'", focused_workspace->name, workspace->name); uint32_t mask = 1; // set all c_views in the old workspace to the invisible mask if the workspace // is in the same output & c_views in the new workspace to the visible mask container_map(focused_workspace, set_mask, &mask); mask = 2; container_map(workspace, set_mask, &mask); wlc_output_set_mask(ws_output->handle, 2); destroy_workspace(focused_workspace); } unfocus_all(&root_container); focus_view(workspace); // focus the output this workspace is on swayc_t *output = workspace->parent; sway_log(L_DEBUG, "Switching focus to output %p (%d)", output, output->type); while (output && output->type != C_OUTPUT) { output = output->parent; } if (output) { sway_log(L_DEBUG, "Switching focus to output %p (%d)", output, output->type); wlc_output_focus(output->handle); } active_workspace = workspace; } /* XXX:DEBUG:XXX */ static void container_log(const swayc_t *c) { fprintf(stderr, "focus:%c|", c == get_focused_container(&root_container) ? 'F' : //Focused c == active_workspace ? 'W' : //active workspace c == &root_container ? 'R' : //root 'X');//not any others fprintf(stderr,"(%p)",c); fprintf(stderr,"(p:%p)",c->parent); fprintf(stderr,"(f:%p)",c->focused); fprintf(stderr,"Type:"); fprintf(stderr, c->type == C_ROOT ? "Root|" : c->type == C_OUTPUT ? "Output|" : c->type == C_WORKSPACE ? "Workspace|" : c->type == C_CONTAINER ? "Container|" : c->type == C_VIEW ? "View|" : "Unknown|"); fprintf(stderr,"layout:"); fprintf(stderr, c->layout == L_NONE ? "NONE|" : c->layout == L_HORIZ ? "Horiz|": c->layout == L_VERT ? "Vert|": c->layout == L_STACKED ? "Stacked|": c->layout == L_FLOATING ? "Floating|": "Unknown|"); fprintf(stderr, "w:%d|h:%d|", c->width, c->height); fprintf(stderr, "x:%d|y:%d|", c->x, c->y); fprintf(stderr, "vis:%c|", c->visible?'t':'f'); fprintf(stderr, "wgt:%d|", c->weight); fprintf(stderr, "name:%.16s|", c->name); fprintf(stderr, "children:%d\n",c->children?c->children->length:0); } void layout_log(const swayc_t *c, int depth) { int i; int e = c->children?c->children->length:0; for (i = 0; i < depth; ++i) fputc(' ', stderr); container_log(c); if (e) { for (i = 0; i < depth; ++i) fputc(' ', stderr); fprintf(stderr,"(\n"); for (i = 0; i < e; ++i) { layout_log(c->children->items[i], depth + 1); } for (i = 0; i < depth; ++i) fputc(' ', stderr); fprintf(stderr,")\n"); } } /* XXX:DEBUG:XXX */