kc3-lang/libxkbcommon/src/state.c
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Hash : 2a2a8d7d
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Date : 2013-08-13T18:57:43
state: apply capitalization transformation on keysyms The xkbproto spec says: http://www.x.org/releases/current/doc/kbproto/xkbproto.html#Interpreting_the_Lock_Modifier If the Lock modifier is not consumed by the symbol lookup process, routines that determine the symbol and string that correspond to an event should capitalize the result. This was not an issue until now, because most xkeyboard-config keymaps do not utilize this "feature", and specify the keysyms for the Lock modifier explicitly instead. However, some keymaps do depend on it, e.g. ch(fr) for eacute and others. The spec goes on to describe two options for doing this transformation: locale-sensitive and locale-insensitive. We opt for the latter; it is less desirable but we don't want *that* headache. Also, only xkb_state_key_get_one_sym() is changed; xkb_state_key_get_syms() is left as-is, and always reports the untransformed keysyms. This is for the following reasons: - The API doesn't allow it, since we return a const pointer directly to the keymap keysyms table and we can't transform that. - The transformation doesn't make sense for multiple-keysyms. - It can be useful for an application to get the "raw" keysyms if it wants to (e.g. maybe it wants to do the transformation itself). Finally, note that xkb_state_mod_index_is_consumed() does *not* report Lock as consumed even if it was used in the transformation. This is what Xlib does. This definitely doesn't fall under the "hard to misuse" API rule but it's the best we can do. https://bugs.freedesktop.org/show_bug.cgi?id=67167 Reported-By: Gatis Paeglis <gatis.paeglis@digia.com> Signed-off-by: Ran Benita <ran234@gmail.com>
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src/state.c
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/************************************************************ * Copyright (c) 1993 by Silicon Graphics Computer Systems, Inc. * * Permission to use, copy, modify, and distribute this * software and its documentation for any purpose and without * fee is hereby granted, provided that the above copyright * notice appear in all copies and that both that copyright * notice and this permission notice appear in supporting * documentation, and that the name of Silicon Graphics not be * used in advertising or publicity pertaining to distribution * of the software without specific prior written permission. * Silicon Graphics makes no representation about the suitability * of this software for any purpose. It is provided "as is" * without any express or implied warranty. * * SILICON GRAPHICS DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS * SOFTWARE, INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY * AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT SHALL SILICON * GRAPHICS BE LIABLE FOR ANY SPECIAL, INDIRECT OR CONSEQUENTIAL * DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, * DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE * OR OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH * THE USE OR PERFORMANCE OF THIS SOFTWARE. * ********************************************************/ /* * Copyright © 2012 Intel Corporation * Copyright © 2012 Ran Benita <ran234@gmail.com> * * 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. * * Author: Daniel Stone <daniel@fooishbar.org> */ /* * This is a bastardised version of xkbActions.c from the X server which * does not support, for the moment: * - AccessX sticky/debounce/etc (will come later) * - pointer keys (may come later) * - key redirects (unlikely) * - messages (very unlikely) */ #include "keymap.h" #include "keysym.h" struct xkb_filter { union xkb_action action; const struct xkb_key *key; uint32_t priv; bool (*func)(struct xkb_state *state, struct xkb_filter *filter, const struct xkb_key *key, enum xkb_key_direction direction); int refcnt; }; struct state_components { /* These may be negative, because of -1 group actions. */ int32_t base_group; /**< depressed */ int32_t latched_group; int32_t locked_group; xkb_layout_index_t group; /**< effective */ xkb_mod_mask_t base_mods; /**< depressed */ xkb_mod_mask_t latched_mods; xkb_mod_mask_t locked_mods; xkb_mod_mask_t mods; /**< effective */ xkb_led_mask_t leds; }; struct xkb_state { /* * Before updating the state, we keep a copy of just this struct. This * allows us to report which components of the state have changed. */ struct state_components components; /* * At each event, we accumulate all the needed modifications to the base * modifiers, and apply them at the end. These keep track of this state. */ xkb_mod_mask_t set_mods; xkb_mod_mask_t clear_mods; /* * We mustn't clear a base modifier if there's another depressed key * which affects it, e.g. given this sequence * < Left Shift down, Right Shift down, Left Shift Up > * the modifier should still be set. This keeps the count. */ int16_t mod_key_count[sizeof(xkb_mod_mask_t) * 8]; int refcnt; darray(struct xkb_filter) filters; struct xkb_keymap *keymap; }; static const struct xkb_key_type_entry * get_entry_for_key_state(struct xkb_state *state, const struct xkb_key *key, xkb_layout_index_t group) { const struct xkb_key_type *type = key->groups[group].type; xkb_mod_mask_t active_mods = state->components.mods & type->mods.mask; unsigned int i; for (i = 0; i < type->num_entries; i++) { /* * If the virtual modifiers are not bound to anything, we're * supposed to skip the entry (xserver does this with cached * entry->active field). */ if (!type->entries[i].mods.mask) continue; if (type->entries[i].mods.mask == active_mods) return &type->entries[i]; } return NULL; } /** * Returns the level to use for the given key and state, or * XKB_LEVEL_INVALID. */ XKB_EXPORT xkb_level_index_t xkb_state_key_get_level(struct xkb_state *state, xkb_keycode_t kc, xkb_layout_index_t layout) { const struct xkb_key *key = XkbKey(state->keymap, kc); const struct xkb_key_type_entry *entry; if (!key || layout >= key->num_groups) return XKB_LEVEL_INVALID; /* If we don't find an explicit match the default is 0. */ entry = get_entry_for_key_state(state, key, layout); if (!entry) return 0; return entry->level; } xkb_layout_index_t wrap_group_into_range(int32_t group, xkb_layout_index_t num_groups, enum xkb_range_exceed_type out_of_range_group_action, xkb_layout_index_t out_of_range_group_number) { if (num_groups == 0) return XKB_LAYOUT_INVALID; if (group < num_groups) return group; switch (out_of_range_group_action) { case RANGE_REDIRECT: if (out_of_range_group_number >= num_groups) return 0; return out_of_range_group_number; case RANGE_SATURATE: if (group < 0) return 0; else return num_groups - 1; case RANGE_WRAP: default: /* * C99 says a negative dividend in a modulo operation always * gives a negative result. */ if (group < 0) return ((int) num_groups + (group % (int) num_groups)); else return group % num_groups; } } /** * Returns the layout to use for the given key and state, taking * wrapping/clamping/etc into account, or XKB_LAYOUT_INVALID. */ XKB_EXPORT xkb_layout_index_t xkb_state_key_get_layout(struct xkb_state *state, xkb_keycode_t kc) { const struct xkb_key *key = XkbKey(state->keymap, kc); if (!key) return XKB_LAYOUT_INVALID; return wrap_group_into_range(state->components.group, key->num_groups, key->out_of_range_group_action, key->out_of_range_group_number); } static const union xkb_action fake = { .type = ACTION_TYPE_NONE }; static const union xkb_action * xkb_key_get_action(struct xkb_state *state, const struct xkb_key *key) { xkb_layout_index_t layout; xkb_level_index_t level; layout = xkb_state_key_get_layout(state, key->keycode); if (layout == XKB_LAYOUT_INVALID) return &fake; level = xkb_state_key_get_level(state, key->keycode, layout); if (level == XKB_LEVEL_INVALID) return &fake; return &key->groups[layout].levels[level].action; } static struct xkb_filter * xkb_filter_new(struct xkb_state *state) { struct xkb_filter *filter = NULL, *iter; darray_foreach(iter, state->filters) { if (iter->func) continue; filter = iter; break; } if (!filter) { darray_resize0(state->filters, darray_size(state->filters) + 1); filter = &darray_item(state->filters, darray_size(state->filters) -1); } filter->refcnt = 1; return filter; } /***====================================================================***/ static bool xkb_filter_group_set_func(struct xkb_state *state, struct xkb_filter *filter, const struct xkb_key *key, enum xkb_key_direction direction) { if (key != filter->key) { filter->action.group.flags &= ~ACTION_LOCK_CLEAR; return true; } if (direction == XKB_KEY_DOWN) { filter->refcnt++; return false; } else if (--filter->refcnt > 0) { return false; } state->components.base_group = filter->priv; if (filter->action.group.flags & ACTION_LOCK_CLEAR) state->components.locked_group = 0; filter->func = NULL; return true; } static void xkb_filter_group_set_new(struct xkb_state *state, struct xkb_filter *filter) { filter->priv = state->components.base_group; if (filter->action.group.flags & ACTION_ABSOLUTE_SWITCH) state->components.base_group = filter->action.group.group; else state->components.base_group += filter->action.group.group; } static bool xkb_filter_group_lock_func(struct xkb_state *state, struct xkb_filter *filter, const struct xkb_key *key, enum xkb_key_direction direction) { if (key != filter->key) return true; if (direction == XKB_KEY_DOWN) { filter->refcnt++; return false; } if (--filter->refcnt > 0) return false; filter->func = NULL; return true; } static void xkb_filter_group_lock_new(struct xkb_state *state, struct xkb_filter *filter) { if (filter->action.group.flags & ACTION_ABSOLUTE_SWITCH) state->components.locked_group = filter->action.group.group; else state->components.locked_group += filter->action.group.group; } static bool xkb_filter_mod_set_func(struct xkb_state *state, struct xkb_filter *filter, const struct xkb_key *key, enum xkb_key_direction direction) { if (key != filter->key) { filter->action.mods.flags &= ~ACTION_LOCK_CLEAR; return true; } if (direction == XKB_KEY_DOWN) { filter->refcnt++; return false; } else if (--filter->refcnt > 0) { return false; } state->clear_mods = filter->action.mods.mods.mask; if (filter->action.mods.flags & ACTION_LOCK_CLEAR) state->components.locked_mods &= ~filter->action.mods.mods.mask; filter->func = NULL; return true; } static void xkb_filter_mod_set_new(struct xkb_state *state, struct xkb_filter *filter) { state->set_mods = filter->action.mods.mods.mask; } static bool xkb_filter_mod_lock_func(struct xkb_state *state, struct xkb_filter *filter, const struct xkb_key *key, enum xkb_key_direction direction) { if (key != filter->key) return true; if (direction == XKB_KEY_DOWN) { filter->refcnt++; return false; } if (--filter->refcnt > 0) return false; state->clear_mods |= filter->action.mods.mods.mask; if (!(filter->action.mods.flags & ACTION_LOCK_NO_UNLOCK)) state->components.locked_mods &= ~filter->priv; filter->func = NULL; return true; } static void xkb_filter_mod_lock_new(struct xkb_state *state, struct xkb_filter *filter) { filter->priv = (state->components.locked_mods & filter->action.mods.mods.mask); state->set_mods |= filter->action.mods.mods.mask; if (!(filter->action.mods.flags & ACTION_LOCK_NO_LOCK)) state->components.locked_mods |= filter->action.mods.mods.mask; } enum xkb_key_latch_state { NO_LATCH, LATCH_KEY_DOWN, LATCH_PENDING, }; static bool xkb_action_breaks_latch(const union xkb_action *action) { switch (action->type) { case ACTION_TYPE_NONE: case ACTION_TYPE_PTR_BUTTON: case ACTION_TYPE_PTR_LOCK: case ACTION_TYPE_CTRL_SET: case ACTION_TYPE_CTRL_LOCK: case ACTION_TYPE_SWITCH_VT: case ACTION_TYPE_TERMINATE: return true; default: return false; } } static bool xkb_filter_mod_latch_func(struct xkb_state *state, struct xkb_filter *filter, const struct xkb_key *key, enum xkb_key_direction direction) { enum xkb_key_latch_state latch = filter->priv; if (direction == XKB_KEY_DOWN && latch == LATCH_PENDING) { /* If this is a new keypress and we're awaiting our single latched * keypress, then either break the latch if any random key is pressed, * or promote it to a lock or plain base set if it's the same * modifier. */ const union xkb_action *action = xkb_key_get_action(state, key); if (action->type == ACTION_TYPE_MOD_LATCH && action->mods.flags == filter->action.mods.flags && action->mods.mods.mask == filter->action.mods.mods.mask) { filter->action = *action; if (filter->action.mods.flags & ACTION_LATCH_TO_LOCK) { filter->action.type = ACTION_TYPE_MOD_LOCK; filter->func = xkb_filter_mod_lock_func; state->components.locked_mods |= filter->action.mods.mods.mask; } else { filter->action.type = ACTION_TYPE_MOD_SET; filter->func = xkb_filter_mod_set_func; state->set_mods = filter->action.mods.mods.mask; } filter->key = key; state->components.latched_mods &= ~filter->action.mods.mods.mask; /* XXX beep beep! */ return false; } else if (xkb_action_breaks_latch(action)) { /* XXX: This may be totally broken, we might need to break the * latch in the next run after this press? */ state->components.latched_mods &= ~filter->action.mods.mods.mask; filter->func = NULL; return true; } } else if (direction == XKB_KEY_UP && key == filter->key) { /* Our key got released. If we've set it to clear locks, and we * currently have the same modifiers locked, then release them and * don't actually latch. Else we've actually hit the latching * stage, so set PENDING and move our modifier from base to * latched. */ if (latch == NO_LATCH || ((filter->action.mods.flags & ACTION_LOCK_CLEAR) && (state->components.locked_mods & filter->action.mods.mods.mask) == filter->action.mods.mods.mask)) { /* XXX: We might be a bit overenthusiastic about clearing * mods other filters have set here? */ if (latch == LATCH_PENDING) state->components.latched_mods &= ~filter->action.mods.mods.mask; else state->clear_mods = filter->action.mods.mods.mask; state->components.locked_mods &= ~filter->action.mods.mods.mask; filter->func = NULL; } else { latch = LATCH_PENDING; state->clear_mods = filter->action.mods.mods.mask; state->components.latched_mods |= filter->action.mods.mods.mask; /* XXX beep beep! */ } } else if (direction == XKB_KEY_DOWN && latch == LATCH_KEY_DOWN) { /* Someone's pressed another key while we've still got the latching * key held down, so keep the base modifier state active (from * xkb_filter_mod_latch_new), but don't trip the latch, just clear * it as soon as the modifier gets released. */ latch = NO_LATCH; } filter->priv = latch; return true; } static void xkb_filter_mod_latch_new(struct xkb_state *state, struct xkb_filter *filter) { filter->priv = LATCH_KEY_DOWN; state->set_mods = filter->action.mods.mods.mask; } static const struct { void (*new)(struct xkb_state *state, struct xkb_filter *filter); bool (*func)(struct xkb_state *state, struct xkb_filter *filter, const struct xkb_key *key, enum xkb_key_direction direction); } filter_action_funcs[_ACTION_TYPE_NUM_ENTRIES] = { [ACTION_TYPE_MOD_SET] = { xkb_filter_mod_set_new, xkb_filter_mod_set_func }, [ACTION_TYPE_MOD_LATCH] = { xkb_filter_mod_latch_new, xkb_filter_mod_latch_func }, [ACTION_TYPE_MOD_LOCK] = { xkb_filter_mod_lock_new, xkb_filter_mod_lock_func }, [ACTION_TYPE_GROUP_SET] = { xkb_filter_group_set_new, xkb_filter_group_set_func }, [ACTION_TYPE_GROUP_LOCK] = { xkb_filter_group_lock_new, xkb_filter_group_lock_func }, }; /** * Applies any relevant filters to the key, first from the list of filters * that are currently active, then if no filter has claimed the key, possibly * apply a new filter from the key action. */ static void xkb_filter_apply_all(struct xkb_state *state, const struct xkb_key *key, enum xkb_key_direction direction) { struct xkb_filter *filter; const union xkb_action *action; bool send = true; /* First run through all the currently active filters and see if any of * them have claimed this event. */ darray_foreach(filter, state->filters) { if (!filter->func) continue; send = filter->func(state, filter, key, direction) && send; } if (!send || direction == XKB_KEY_UP) return; action = xkb_key_get_action(state, key); /* * It's possible for the keymap to set action->type explicitly, like so: * interpret XF86_Next_VMode { * action = Private(type=0x86, data="+VMode"); * }; * We don't handle those. */ if (action->type >= _ACTION_TYPE_NUM_ENTRIES) return; if (!filter_action_funcs[action->type].new) return; filter = xkb_filter_new(state); if (!filter) return; /* WSGO */ filter->key = key; filter->func = filter_action_funcs[action->type].func; filter->action = *action; filter_action_funcs[action->type].new(state, filter); } XKB_EXPORT struct xkb_state * xkb_state_new(struct xkb_keymap *keymap) { struct xkb_state *ret; ret = calloc(sizeof(*ret), 1); if (!ret) return NULL; ret->refcnt = 1; ret->keymap = xkb_keymap_ref(keymap); return ret; } XKB_EXPORT struct xkb_state * xkb_state_ref(struct xkb_state *state) { state->refcnt++; return state; } XKB_EXPORT void xkb_state_unref(struct xkb_state *state) { if (!state || --state->refcnt > 0) return; xkb_keymap_unref(state->keymap); darray_free(state->filters); free(state); } XKB_EXPORT struct xkb_keymap * xkb_state_get_keymap(struct xkb_state *state) { return state->keymap; } /** * Update the LED state to match the rest of the xkb_state. */ static void xkb_state_led_update_all(struct xkb_state *state) { xkb_led_index_t idx; const struct xkb_led *led; state->components.leds = 0; darray_enumerate(idx, led, state->keymap->leds) { xkb_mod_mask_t mod_mask = 0; xkb_layout_mask_t group_mask = 0; if (led->which_mods & XKB_STATE_MODS_EFFECTIVE) mod_mask |= state->components.mods; if (led->which_mods & XKB_STATE_MODS_DEPRESSED) mod_mask |= state->components.base_mods; if (led->which_mods & XKB_STATE_MODS_LATCHED) mod_mask |= state->components.latched_mods; if (led->which_mods & XKB_STATE_MODS_LOCKED) mod_mask |= state->components.locked_mods; if (led->mods.mask & mod_mask) state->components.leds |= (1 << idx); if (led->which_groups & XKB_STATE_LAYOUT_EFFECTIVE) group_mask |= (1 << state->components.group); if (led->which_groups & XKB_STATE_LAYOUT_DEPRESSED) group_mask |= (1 << state->components.base_group); if (led->which_groups & XKB_STATE_LAYOUT_LATCHED) group_mask |= (1 << state->components.latched_group); if (led->which_groups & XKB_STATE_LAYOUT_LOCKED) group_mask |= (1 << state->components.locked_group); if (led->groups & group_mask) state->components.leds |= (1 << idx); if (led->ctrls & state->keymap->enabled_ctrls) state->components.leds |= (1 << idx); } } /** * Calculates the derived state (effective mods/group and LEDs) from an * up-to-date xkb_state. */ static void xkb_state_update_derived(struct xkb_state *state) { state->components.mods = (state->components.base_mods | state->components.latched_mods | state->components.locked_mods); /* TODO: Use groups_wrap control instead of always RANGE_WRAP. */ state->components.locked_group = wrap_group_into_range(state->components.locked_group, state->keymap->num_groups, RANGE_WRAP, 0); state->components.group = wrap_group_into_range(state->components.base_group + state->components.latched_group + state->components.locked_group, state->keymap->num_groups, RANGE_WRAP, 0); xkb_state_led_update_all(state); } static enum xkb_state_component get_state_component_changes(const struct state_components *a, const struct state_components *b) { xkb_mod_mask_t mask = 0; if (a->group != b->group) mask |= XKB_STATE_LAYOUT_EFFECTIVE; if (a->base_group != b->base_group) mask |= XKB_STATE_LAYOUT_DEPRESSED; if (a->latched_group != b->latched_group) mask |= XKB_STATE_LAYOUT_LATCHED; if (a->locked_group != b->locked_group) mask |= XKB_STATE_LAYOUT_LOCKED; if (a->mods != b->mods) mask |= XKB_STATE_MODS_EFFECTIVE; if (a->base_mods != b->base_mods) mask |= XKB_STATE_MODS_DEPRESSED; if (a->latched_mods != b->latched_mods) mask |= XKB_STATE_MODS_LATCHED; if (a->locked_mods != b->locked_mods) mask |= XKB_STATE_MODS_LOCKED; if (a->leds != b->leds) mask |= XKB_STATE_LEDS; return mask; } /** * Given a particular key event, updates the state structure to reflect the * new modifiers. */ XKB_EXPORT enum xkb_state_component xkb_state_update_key(struct xkb_state *state, xkb_keycode_t kc, enum xkb_key_direction direction) { xkb_mod_index_t i; xkb_mod_mask_t bit; struct state_components prev_components; const struct xkb_key *key = XkbKey(state->keymap, kc); if (!key) return 0; prev_components = state->components; state->set_mods = 0; state->clear_mods = 0; xkb_filter_apply_all(state, key, direction); for (i = 0, bit = 1; state->set_mods; i++, bit <<= 1) { if (state->set_mods & bit) { state->mod_key_count[i]++; state->components.base_mods |= bit; state->set_mods &= ~bit; } } for (i = 0, bit = 1; state->clear_mods; i++, bit <<= 1) { if (state->clear_mods & bit) { state->mod_key_count[i]--; if (state->mod_key_count[i] <= 0) { state->components.base_mods &= ~bit; state->mod_key_count[i] = 0; } state->clear_mods &= ~bit; } } xkb_state_update_derived(state); return get_state_component_changes(&prev_components, &state->components); } /** * Updates the state from a set of explicit masks as gained from * xkb_state_serialize_mods and xkb_state_serialize_groups. As noted in the * documentation for these functions in xkbcommon.h, this round-trip is * lossy, and should only be used to update a slave state mirroring the * master, e.g. in a client/server window system. */ XKB_EXPORT enum xkb_state_component xkb_state_update_mask(struct xkb_state *state, xkb_mod_mask_t base_mods, xkb_mod_mask_t latched_mods, xkb_mod_mask_t locked_mods, xkb_layout_index_t base_group, xkb_layout_index_t latched_group, xkb_layout_index_t locked_group) { struct state_components prev_components; xkb_mod_index_t num_mods; xkb_mod_index_t idx; prev_components = state->components; state->components.base_mods = 0; state->components.latched_mods = 0; state->components.locked_mods = 0; num_mods = xkb_keymap_num_mods(state->keymap); for (idx = 0; idx < num_mods; idx++) { xkb_mod_mask_t mod = (1 << idx); if (base_mods & mod) state->components.base_mods |= mod; if (latched_mods & mod) state->components.latched_mods |= mod; if (locked_mods & mod) state->components.locked_mods |= mod; } state->components.base_group = base_group; state->components.latched_group = latched_group; state->components.locked_group = locked_group; xkb_state_update_derived(state); return get_state_component_changes(&prev_components, &state->components); } /** * Provides the symbols to use for the given key and state. Returns the * number of symbols pointed to in syms_out. */ XKB_EXPORT int xkb_state_key_get_syms(struct xkb_state *state, xkb_keycode_t kc, const xkb_keysym_t **syms_out) { xkb_layout_index_t layout; xkb_level_index_t level; layout = xkb_state_key_get_layout(state, kc); if (layout == XKB_LAYOUT_INVALID) goto err; level = xkb_state_key_get_level(state, kc, layout); if (level == XKB_LEVEL_INVALID) goto err; return xkb_keymap_key_get_syms_by_level(state->keymap, kc, layout, level, syms_out); err: *syms_out = NULL; return 0; } /** * Provides either exactly one symbol, or XKB_KEY_NoSymbol. */ XKB_EXPORT xkb_keysym_t xkb_state_key_get_one_sym(struct xkb_state *state, xkb_keycode_t kc) { const xkb_keysym_t *syms; xkb_keysym_t sym; int num_syms; xkb_mod_index_t caps; num_syms = xkb_state_key_get_syms(state, kc, &syms); if (num_syms != 1) return XKB_KEY_NoSymbol; sym = syms[0]; /* * Perform capitalization transformation, see: * http://www.x.org/releases/current/doc/kbproto/xkbproto.html#Interpreting_the_Lock_Modifier */ caps = xkb_keymap_mod_get_index(state->keymap, XKB_MOD_NAME_CAPS); if (xkb_state_mod_index_is_active(state, caps, XKB_STATE_MODS_EFFECTIVE) > 0 && xkb_state_mod_index_is_consumed(state, kc, caps) == 0) sym = xkb_keysym_to_upper(sym); return sym; } /** * Serialises the requested modifier state into an xkb_mod_mask_t, with all * the same disclaimers as in xkb_state_update_mask. */ XKB_EXPORT xkb_mod_mask_t xkb_state_serialize_mods(struct xkb_state *state, enum xkb_state_component type) { xkb_mod_mask_t ret = 0; if (type & XKB_STATE_MODS_EFFECTIVE) return state->components.mods; if (type & XKB_STATE_MODS_DEPRESSED) ret |= state->components.base_mods; if (type & XKB_STATE_MODS_LATCHED) ret |= state->components.latched_mods; if (type & XKB_STATE_MODS_LOCKED) ret |= state->components.locked_mods; return ret; } /** * Serialises the requested group state, with all the same disclaimers as * in xkb_state_update_mask. */ XKB_EXPORT xkb_layout_index_t xkb_state_serialize_layout(struct xkb_state *state, enum xkb_state_component type) { xkb_layout_index_t ret = 0; if (type & XKB_STATE_LAYOUT_EFFECTIVE) return state->components.group; if (type & XKB_STATE_LAYOUT_DEPRESSED) ret += state->components.base_group; if (type & XKB_STATE_LAYOUT_LATCHED) ret += state->components.latched_group; if (type & XKB_STATE_LAYOUT_LOCKED) ret += state->components.locked_group; return ret; } /** * Returns 1 if the given modifier is active with the specified type(s), 0 if * not, or -1 if the modifier is invalid. */ XKB_EXPORT int xkb_state_mod_index_is_active(struct xkb_state *state, xkb_mod_index_t idx, enum xkb_state_component type) { if (idx >= xkb_keymap_num_mods(state->keymap)) return -1; return !!(xkb_state_serialize_mods(state, type) & (1 << idx)); } /** * Helper function for xkb_state_mod_indices_are_active and * xkb_state_mod_names_are_active. */ static int match_mod_masks(struct xkb_state *state, enum xkb_state_component type, enum xkb_state_match match, xkb_mod_mask_t wanted) { xkb_mod_mask_t active = xkb_state_serialize_mods(state, type); if (!(match & XKB_STATE_MATCH_NON_EXCLUSIVE) && (active & ~wanted)) return 0; if (match & XKB_STATE_MATCH_ANY) return !!(active & wanted); else return (active & wanted) == wanted; return 0; } /** * Returns 1 if the modifiers are active with the specified type(s), 0 if * not, or -1 if any of the modifiers are invalid. */ XKB_EXPORT int xkb_state_mod_indices_are_active(struct xkb_state *state, enum xkb_state_component type, enum xkb_state_match match, ...) { va_list ap; xkb_mod_index_t idx = 0; xkb_mod_mask_t wanted = 0; int ret = 0; xkb_mod_index_t num_mods = xkb_keymap_num_mods(state->keymap); va_start(ap, match); while (1) { idx = va_arg(ap, xkb_mod_index_t); if (idx == XKB_MOD_INVALID) break; if (idx >= num_mods) { ret = -1; break; } wanted |= (1 << idx); } va_end(ap); if (ret == -1) return ret; return match_mod_masks(state, type, match, wanted); } /** * Returns 1 if the given modifier is active with the specified type(s), 0 if * not, or -1 if the modifier is invalid. */ XKB_EXPORT int xkb_state_mod_name_is_active(struct xkb_state *state, const char *name, enum xkb_state_component type) { xkb_mod_index_t idx = xkb_keymap_mod_get_index(state->keymap, name); if (idx == XKB_MOD_INVALID) return -1; return xkb_state_mod_index_is_active(state, idx, type); } /** * Returns 1 if the modifiers are active with the specified type(s), 0 if * not, or -1 if any of the modifiers are invalid. */ XKB_EXPORT ATTR_NULL_SENTINEL int xkb_state_mod_names_are_active(struct xkb_state *state, enum xkb_state_component type, enum xkb_state_match match, ...) { va_list ap; xkb_mod_index_t idx = 0; const char *str; xkb_mod_mask_t wanted = 0; int ret = 0; va_start(ap, match); while (1) { str = va_arg(ap, const char *); if (str == NULL) break; idx = xkb_keymap_mod_get_index(state->keymap, str); if (idx == XKB_MOD_INVALID) { ret = -1; break; } wanted |= (1 << idx); } va_end(ap); if (ret == -1) return ret; return match_mod_masks(state, type, match, wanted); } /** * Returns 1 if the given group is active with the specified type(s), 0 if * not, or -1 if the group is invalid. */ XKB_EXPORT int xkb_state_layout_index_is_active(struct xkb_state *state, xkb_layout_index_t idx, enum xkb_state_component type) { int ret = 0; if (idx >= state->keymap->num_groups) return -1; if (type & XKB_STATE_LAYOUT_EFFECTIVE) ret |= (state->components.group == idx); if (type & XKB_STATE_LAYOUT_DEPRESSED) ret |= (state->components.base_group == idx); if (type & XKB_STATE_LAYOUT_LATCHED) ret |= (state->components.latched_group == idx); if (type & XKB_STATE_LAYOUT_LOCKED) ret |= (state->components.locked_group == idx); return ret; } /** * Returns 1 if the given modifier is active with the specified type(s), 0 if * not, or -1 if the modifier is invalid. */ XKB_EXPORT int xkb_state_layout_name_is_active(struct xkb_state *state, const char *name, enum xkb_state_component type) { xkb_layout_index_t idx = xkb_keymap_layout_get_index(state->keymap, name); if (idx == XKB_LAYOUT_INVALID) return -1; return xkb_state_layout_index_is_active(state, idx, type); } /** * Returns 1 if the given LED is active, 0 if not, or -1 if the LED is invalid. */ XKB_EXPORT int xkb_state_led_index_is_active(struct xkb_state *state, xkb_led_index_t idx) { if (idx >= darray_size(state->keymap->leds) || darray_item(state->keymap->leds, idx).name == XKB_ATOM_NONE) return -1; return !!(state->components.leds & (1 << idx)); } /** * Returns 1 if the given LED is active, 0 if not, or -1 if the LED is invalid. */ XKB_EXPORT int xkb_state_led_name_is_active(struct xkb_state *state, const char *name) { xkb_led_index_t idx = xkb_keymap_led_get_index(state->keymap, name); if (idx == XKB_LED_INVALID) return -1; return xkb_state_led_index_is_active(state, idx); } static xkb_mod_mask_t key_get_consumed(struct xkb_state *state, const struct xkb_key *key) { const struct xkb_key_type_entry *entry; xkb_layout_index_t group; group = xkb_state_key_get_layout(state, key->keycode); if (group == XKB_LAYOUT_INVALID) return 0; entry = get_entry_for_key_state(state, key, group); if (!entry) return 0; return entry->mods.mask & ~entry->preserve.mask; } /** * Tests to see if a modifier is used up by our translation of a * keycode to keysyms, taking note of the current modifier state and * the appropriate key type's preserve information, if any. This allows * the user to mask out the modifier in later processing of the * modifiers, e.g. when implementing hot keys or accelerators. * * See also, for example: * - XkbTranslateKeyCode(3), mod_rtrn return value, from libX11. * - gdk_keymap_translate_keyboard_state, consumed_modifiers return value, * from gtk+. */ XKB_EXPORT int xkb_state_mod_index_is_consumed(struct xkb_state *state, xkb_keycode_t kc, xkb_mod_index_t idx) { const struct xkb_key *key = XkbKey(state->keymap, kc); if (!key || idx >= xkb_keymap_num_mods(state->keymap)) return -1; return !!((1 << idx) & key_get_consumed(state, key)); } /** * Calculates which modifiers should be consumed during key processing, * and returns the mask with all these modifiers removed. e.g. if * given a state of Alt and Shift active for a two-level alphabetic * key containing plus and equal on the first and second level * respectively, will return a mask of only Alt, as Shift has been * consumed by the type handling. */ XKB_EXPORT xkb_mod_mask_t xkb_state_mod_mask_remove_consumed(struct xkb_state *state, xkb_keycode_t kc, xkb_mod_mask_t mask) { const struct xkb_key *key = XkbKey(state->keymap, kc); if (!key) return 0; return mask & ~key_get_consumed(state, key); }