/* * vim:ts=4:sw=4:expandtab * * i3 - an improved dynamic tiling window manager * © 2009-2011 Michael Stapelberg and contributors (see also: LICENSE) * * A "match" is a data structure which acts like a mask or expression to match * certain windows or not. For example, when using commands, you can specify a * command like this: [title="*Firefox*"] kill. The title member of the match * data structure will then be filled and i3 will check each window using * match_matches_window() to find the windows affected by this command. * */ #include "all.h" /* * Initializes the Match data structure. This function is necessary because the * members representing boolean values (like dock) need to be initialized with * -1 instead of 0. * */ void match_init(Match *match) { memset(match, 0, sizeof(Match)); match->dock = -1; } /* * Check if a match is empty. This is necessary while parsing commands to see * whether the user specified a match at all. * */ bool match_is_empty(Match *match) { /* we cannot simply use memcmp() because the structure is part of a * TAILQ and I don’t want to start with things like assuming that the * last member of a struct really is at the end in memory… */ return (match->title == NULL && match->mark == NULL && match->application == NULL && match->class == NULL && match->instance == NULL && match->role == NULL && match->id == XCB_NONE && match->con_id == NULL && match->dock == -1 && match->floating == M_ANY); } /* * Copies the data of a match from src to dest. * */ void match_copy(Match *dest, Match *src) { memcpy(dest, src, sizeof(Match)); /* The DUPLICATE_REGEX macro creates a new regular expression from the * ->pattern of the old one. It therefore does use a little more memory then * with a refcounting system, but it’s easier this way. */ #define DUPLICATE_REGEX(field) do { \ if (src->field != NULL) \ dest->field = regex_new(src->field->pattern); \ } while (0) DUPLICATE_REGEX(title); DUPLICATE_REGEX(mark); DUPLICATE_REGEX(application); DUPLICATE_REGEX(class); DUPLICATE_REGEX(instance); DUPLICATE_REGEX(role); } /* * Check if a match data structure matches the given window. * */ bool match_matches_window(Match *match, i3Window *window) { LOG("checking window %d (%s)\n", window->id, window->class_class); if (match->class != NULL) { if (window->class_class != NULL && regex_matches(match->class, window->class_class)) { LOG("window class matches (%s)\n", window->class_class); } else { LOG("window class does not match\n"); return false; } } if (match->instance != NULL) { if (window->class_instance != NULL && regex_matches(match->instance, window->class_instance)) { LOG("window instance matches (%s)\n", window->class_instance); } else { LOG("window instance does not match\n"); return false; } } if (match->id != XCB_NONE) { if (window->id == match->id) { LOG("match made by window id (%d)\n", window->id); } else { LOG("window id does not match\n"); return false; } } if (match->title != NULL) { if (window->name_json != NULL && regex_matches(match->title, window->name_json)) { LOG("title matches (%s)\n", window->name_json); } else { LOG("title does not match\n"); return false; } } if (match->role != NULL) { if (window->role != NULL && regex_matches(match->role, window->role)) { LOG("window_role matches (%s)\n", window->role); } else { LOG("window_role does not match\n"); return false; } } if (match->dock != -1) { LOG("match->dock = %d, window->dock = %d\n", match->dock, window->dock); if ((window->dock == W_DOCK_TOP && match->dock == M_DOCK_TOP) || (window->dock == W_DOCK_BOTTOM && match->dock == M_DOCK_BOTTOM) || ((window->dock == W_DOCK_TOP || window->dock == W_DOCK_BOTTOM) && match->dock == M_DOCK_ANY) || (window->dock == W_NODOCK && match->dock == M_NODOCK)) { LOG("dock status matches\n"); } else { LOG("dock status does not match\n"); return false; } } /* We don’t check the mark because this function is not even called when * the mark would have matched - it is checked in cmdparse.y itself */ if (match->mark != NULL) { LOG("mark does not match\n"); return false; } return true; } /* * Frees the given match. It must not be used afterwards! * */ void match_free(Match *match) { /* First step: free the regex fields / patterns */ regex_free(match->title); regex_free(match->application); regex_free(match->class); regex_free(match->instance); regex_free(match->mark); regex_free(match->role); /* Second step: free the regex helper struct itself */ FREE(match->title); FREE(match->application); FREE(match->class); FREE(match->instance); FREE(match->mark); FREE(match->role); }