package juloo.keyboard2; import android.os.Handler; import android.os.Message; import java.util.ArrayList; import java.util.Arrays; import java.util.Iterator; import java.util.NoSuchElementException; /** * Manage pointers (fingers) on the screen and long presses. * Call back to IPointerEventHandler. */ public final class Pointers implements Handler.Callback { public static final int FLAG_P_LATCHABLE = 1; public static final int FLAG_P_LATCHED = (1 << 1); public static final int FLAG_P_FAKE = (1 << 2); public static final int FLAG_P_LOCKABLE = (1 << 3); public static final int FLAG_P_LOCKED = (1 << 4); public static final int FLAG_P_SLIDING = (1 << 5); /** Clear latched (only if also FLAG_P_LATCHABLE set). */ public static final int FLAG_P_CLEAR_LATCHED = (1 << 6); /** Can't be locked, even when long pressing. */ public static final int FLAG_P_CANT_LOCK = (1 << 7); private Handler _keyrepeat_handler; private ArrayList _ptrs = new ArrayList(); private IPointerEventHandler _handler; private Config _config; public Pointers(IPointerEventHandler h, Config c) { _keyrepeat_handler = new Handler(this); _handler = h; _config = c; } /** Return the list of modifiers currently activated. */ public Modifiers getModifiers() { return getModifiers(false); } /** When [skip_latched] is true, don't take flags of latched keys into account. */ private Modifiers getModifiers(boolean skip_latched) { int n_ptrs = _ptrs.size(); KeyValue[] mods = new KeyValue[n_ptrs]; int n_mods = 0; for (int i = 0; i < n_ptrs; i++) { Pointer p = _ptrs.get(i); if (p.value != null && !(skip_latched && p.hasFlagsAny(FLAG_P_LATCHED) && (p.flags & FLAG_P_LOCKED) == 0)) mods[n_mods++] = p.value; } return Modifiers.ofArray(mods, n_mods); } public void clear() { for (Pointer p : _ptrs) stopKeyRepeat(p); _ptrs.clear(); } public boolean isKeyDown(KeyboardData.Key k) { for (Pointer p : _ptrs) if (p.key == k) return true; return false; } /** See [FLAG_P_*] flags. Returns [-1] if the key is not pressed. */ public int getKeyFlags(KeyValue kv) { for (Pointer p : _ptrs) if (p.value != null && p.value.equals(kv)) return p.flags; return -1; } /** The key must not be already latched . */ void add_fake_pointer(KeyboardData.Key key, KeyValue kv, boolean locked) { Pointer ptr = new Pointer(-1, key, kv, 0.f, 0.f, Modifiers.EMPTY); ptr.flags = FLAG_P_FAKE | FLAG_P_LATCHED; if (locked) ptr.flags |= FLAG_P_LOCKED; _ptrs.add(ptr); _handler.onPointerFlagsChanged(false); } /** Set whether a key is latched or locked by adding a "fake" pointer, a pointer that is not due to user interaction. This is used by auto-capitalisation. When [lock] is true, [latched] control whether the modifier is locked or disabled. When [lock] is false, an existing locked pointer is not affected. */ public void set_fake_pointer_state(KeyboardData.Key key, KeyValue kv, boolean latched, boolean lock) { Pointer ptr = getLatched(key, kv); if (ptr == null) { // No existing pointer, latch the key. if (latched) add_fake_pointer(key, kv, lock); } else if ((ptr.flags & FLAG_P_FAKE) != 0) {} // Key already latched but not by a fake ptr, do nothing. else if (lock) { // Acting on locked modifiers, replace the pointer each time. removePtr(ptr); if (latched) add_fake_pointer(key, kv, lock); } else if ((ptr.flags & FLAG_P_LOCKED) != 0) {} // Existing ptr is locked but [lock] is false, do not continue. else if (!latched) { // Key is latched by a fake ptr. Unlatch if requested. removePtr(ptr); _handler.onPointerFlagsChanged(false); } } // Receiving events public void onTouchUp(int pointerId) { Pointer ptr = getPtr(pointerId); if (ptr == null) return; if (ptr.hasFlagsAny(FLAG_P_SLIDING)) { clearLatched(); ptr.sliding.onTouchUp(ptr); return; } stopKeyRepeat(ptr); Pointer latched = getLatched(ptr); if (latched != null) // Already latched { removePtr(ptr); // Remove dupplicate if ((latched.flags & FLAG_P_LOCKABLE) != 0) // Toggle lockable key lockPointer(latched, false); else // Otherwise, unlatch { removePtr(latched); _handler.onPointerUp(ptr.value, ptr.modifiers); } } else if ((ptr.flags & FLAG_P_LATCHABLE) != 0) { // Latchable but non-special keys must clear latched. if ((ptr.flags & FLAG_P_CLEAR_LATCHED) != 0) clearLatched(); ptr.flags |= FLAG_P_LATCHED; ptr.pointerId = -1; _handler.onPointerFlagsChanged(false); } else { clearLatched(); removePtr(ptr); _handler.onPointerUp(ptr.value, ptr.modifiers); } } public void onTouchCancel() { clear(); _handler.onPointerFlagsChanged(true); } /* Whether an other pointer is down on a non-special key. */ private boolean isOtherPointerDown() { for (Pointer p : _ptrs) if (!p.hasFlagsAny(FLAG_P_LATCHED) && (p.value == null || !p.value.hasFlagsAny(KeyValue.FLAG_SPECIAL))) return true; return false; } public void onTouchDown(float x, float y, int pointerId, KeyboardData.Key key) { // Ignore new presses while a sliding key is active. On some devices, ghost // touch events can happen while the pointer travels on top of other keys. if (isSliding()) return; // Don't take latched modifiers into account if an other key is pressed. // The other key already "own" the latched modifiers and will clear them. Modifiers mods = getModifiers(isOtherPointerDown()); KeyValue value = _handler.modifyKey(key.keys[0], mods); Pointer ptr = new Pointer(pointerId, key, value, x, y, mods); _ptrs.add(ptr); startKeyRepeat(ptr); _handler.onPointerDown(value, false); } static final int[] DIRECTION_TO_INDEX = new int[]{ 7, 2, 2, 6, 6, 4, 4, 8, 8, 3, 3, 5, 5, 1, 1, 7 }; /** * [direction] is an int between [0] and [15] that represent 16 sections of a * circle, clockwise, starting at the top. */ KeyValue getKeyAtDirection(KeyboardData.Key k, int direction) { return k.keys[DIRECTION_TO_INDEX[direction]]; } /* * Get the KeyValue at the given direction. In case of swipe (direction != * null), get the nearest KeyValue that is not key0. * Take care of applying [_handler.onPointerSwipe] to the selected key, this * must be done at the same time to be sure to treat removed keys correctly. * Return [null] if no key could be found in the given direction or if the * selected key didn't change. */ private KeyValue getNearestKeyAtDirection(Pointer ptr, Integer direction) { if (direction == null) return _handler.modifyKey(ptr.key.keys[0], ptr.modifiers); KeyValue k; // [i] is [0, -1, 1, -2, 2, ...] for (int i = 0; i > -4; i = (~i>>31) - i) { int d = (direction + i + 16) % 16; // Don't make the difference between a key that doesn't exist and a key // that is removed by [_handler]. Triggers side effects. k = _handler.modifyKey(getKeyAtDirection(ptr.key, d), ptr.modifiers); if (k != null) return k; } return null; } public void onTouchMove(float x, float y, int pointerId) { Pointer ptr = getPtr(pointerId); if (ptr == null) return; if (ptr.hasFlagsAny(FLAG_P_SLIDING)) { ptr.sliding.onTouchMove(ptr, x); return; } // The position in a IME windows is clampled to view. // For a better up swipe behaviour, set the y position to a negative value when clamped. if (y == 0.0) y = -400; float dx = x - ptr.downX; float dy = y - ptr.downY; float dist = Math.abs(dx) + Math.abs(dy); Integer direction; if (dist < _config.swipe_dist_px) { direction = null; } else { // See [getKeyAtDirection()] for the meaning. The starting point on the // circle is the top direction. double a = Math.atan2(dy, dx) + Math.PI; // a is between 0 and 2pi, 0 is pointing to the left // add 12 to align 0 to the top direction = ((int)(a * 8 / Math.PI) + 12) % 16; } if (direction != ptr.selected_direction) { ptr.selected_direction = direction; KeyValue newValue = getNearestKeyAtDirection(ptr, direction); if (newValue != null && !newValue.equals(ptr.value)) { ptr.value = newValue; ptr.flags = pointer_flags_of_kv(newValue); // Sliding mode is entered when key5 or key6 is down on a slider key. if (ptr.key.slider && (newValue.equals(ptr.key.getKeyValue(5)) || newValue.equals(ptr.key.getKeyValue(6)))) { startSliding(ptr, x); } _handler.onPointerDown(newValue, true); } } } // Pointers management private Pointer getPtr(int pointerId) { for (Pointer p : _ptrs) if (p.pointerId == pointerId) return p; return null; } private void removePtr(Pointer ptr) { _ptrs.remove(ptr); } private Pointer getLatched(Pointer target) { return getLatched(target.key, target.value); } private Pointer getLatched(KeyboardData.Key k, KeyValue v) { if (v == null) return null; for (Pointer p : _ptrs) if (p.key == k && p.hasFlagsAny(FLAG_P_LATCHED) && p.value != null && p.value.equals(v)) return p; return null; } private void clearLatched() { for (int i = _ptrs.size() - 1; i >= 0; i--) { Pointer ptr = _ptrs.get(i); // Latched and not locked, remove if (ptr.hasFlagsAny(FLAG_P_LATCHED) && (ptr.flags & FLAG_P_LOCKED) == 0) _ptrs.remove(i); // Not latched but pressed, don't latch once released and stop long press. else if ((ptr.flags & FLAG_P_LATCHABLE) != 0) ptr.flags &= ~FLAG_P_LATCHABLE; } } /** Make a pointer into the locked state. */ private void lockPointer(Pointer ptr, boolean shouldVibrate) { ptr.flags = (ptr.flags & ~FLAG_P_LOCKABLE) | FLAG_P_LOCKED; _handler.onPointerFlagsChanged(shouldVibrate); } boolean isSliding() { for (Pointer ptr : _ptrs) if (ptr.hasFlagsAny(FLAG_P_SLIDING)) return true; return false; } // Key repeat /** Message from [_keyrepeat_handler]. */ @Override public boolean handleMessage(Message msg) { for (Pointer ptr : _ptrs) { if (ptr.timeoutWhat == msg.what) { if (handleKeyRepeat(ptr)) _keyrepeat_handler.sendEmptyMessageDelayed(msg.what, _config.longPressInterval); else ptr.timeoutWhat = -1; return true; } } return false; } private static int uniqueTimeoutWhat = 0; private void startKeyRepeat(Pointer ptr) { int what = (uniqueTimeoutWhat++); ptr.timeoutWhat = what; _keyrepeat_handler.sendEmptyMessageDelayed(what, _config.longPressTimeout); } private void stopKeyRepeat(Pointer ptr) { if (ptr.timeoutWhat != -1) { _keyrepeat_handler.removeMessages(ptr.timeoutWhat); ptr.timeoutWhat = -1; } } /** A pointer is repeating. Returns [true] if repeat should continue. */ private boolean handleKeyRepeat(Pointer ptr) { // Long press toggle lock on modifiers if ((ptr.flags & FLAG_P_LATCHABLE) != 0) { if (!ptr.hasFlagsAny(FLAG_P_CANT_LOCK)) lockPointer(ptr, true); return false; } // Stop repeating: Latched key, no key if (ptr.hasFlagsAny(FLAG_P_LATCHED) || ptr.value == null) return false; KeyValue kv = KeyModifier.modify_long_press(ptr.value); if (!kv.equals(ptr.value)) { ptr.value = kv; _handler.onPointerDown(kv, true); return true; } // Stop repeating: Special keys if (kv.hasFlagsAny(KeyValue.FLAG_SPECIAL)) return false; _handler.onPointerHold(kv, ptr.modifiers); return true; } // Sliding void startSliding(Pointer ptr, float x) { stopKeyRepeat(ptr); ptr.flags |= FLAG_P_SLIDING; ptr.sliding = new Sliding(x); } /** Return the [FLAG_P_*] flags that correspond to pressing [kv]. */ static int pointer_flags_of_kv(KeyValue kv) { int flags = 0; if (kv.hasFlagsAny(KeyValue.FLAG_LATCH)) { // Non-special latchable key must clear modifiers and can't be locked if (!kv.hasFlagsAny(KeyValue.FLAG_SPECIAL)) flags |= FLAG_P_CLEAR_LATCHED | FLAG_P_CANT_LOCK; flags |= FLAG_P_LATCHABLE; } if (kv.hasFlagsAny(KeyValue.FLAG_LOCK)) flags |= FLAG_P_LOCKABLE; return flags; } private static final class Pointer { /** -1 when latched. */ public int pointerId; /** The Key pressed by this Pointer */ public final KeyboardData.Key key; /** Current direction. [null] means not swiping. */ public Integer selected_direction; /** Selected value with [modifiers] applied. */ public KeyValue value; public float downX; public float downY; /** Modifier flags at the time the key was pressed. */ public Modifiers modifiers; /** See [FLAG_P_*] flags. */ public int flags; /** Identify timeout messages. */ public int timeoutWhat; /** [null] when not in sliding mode. */ public Sliding sliding; public Pointer(int p, KeyboardData.Key k, KeyValue v, float x, float y, Modifiers m) { pointerId = p; key = k; selected_direction = null; value = v; downX = x; downY = y; modifiers = m; flags = (v == null) ? 0 : pointer_flags_of_kv(v); timeoutWhat = -1; sliding = null; } public boolean hasFlagsAny(int has) { return ((flags & has) != 0); } } public final class Sliding { /** Accumulated distance since last event. */ float d = 0.f; /** The slider speed changes depending on the pointer speed. */ float speed = 1.f; /** Coordinate of the last move. */ float last_x; /** [System.currentTimeMillis()] at the time of the last move. */ long last_move_ms; public Sliding(float x) { last_x = x; last_move_ms = System.currentTimeMillis(); } static final float SPEED_SMOOTHING = 0.7f; /** Avoid absurdly large values. */ static final float SPEED_MAX = 4.f; public void onTouchMove(Pointer ptr, float x) { d += (x - last_x) * speed / _config.slide_step_px; update_speed(x); // Send an event when [abs(d)] exceeds [1]. int d_ = (int)d; if (d_ != 0) { d -= d_; int key_index = (d_ < 0) ? 5 : 6; ptr.value = _handler.modifyKey(ptr.key.keys[key_index], ptr.modifiers); send_key(ptr, Math.abs(d_)); } } /** Handle a sliding pointer going up. Latched modifiers are not cleared to allow easy adjustments to the cursors. The pointer is cancelled. */ public void onTouchUp(Pointer ptr) { removePtr(ptr); _handler.onPointerFlagsChanged(false); } /** Send the pressed key [n] times. */ void send_key(Pointer ptr, int n) { if (ptr.value == null) return; // Avoid looping if possible to avoid lag while sliding fast KeyValue multiplied = multiply_key(ptr.value, n); if (multiplied != null) _handler.onPointerHold(multiplied, ptr.modifiers); else for (int i = 0; i < n; i++) _handler.onPointerHold(ptr.value, ptr.modifiers); } /** Return a key performing the same action as [kv] but [n] times. Returns [null] if [kv] cannot be multiplied. */ KeyValue multiply_key(KeyValue kv, int n) { switch (kv.getKind()) { case Cursor_move: return KeyValue.cursorMoveKey(kv.getCursorMove() * n); } return null; } /** [speed] is computed from the elapsed time and distance traveled between two move events. Exponential smoothing is used to smooth out the noise. Sets [last_move_ms] and [last_x]. */ void update_speed(float x) { long now = System.currentTimeMillis(); float instant_speed = Math.min(SPEED_MAX, Math.abs(x - last_x) / (float)(now - last_move_ms) + 1.f); speed = speed + (instant_speed - speed) * SPEED_SMOOTHING; last_move_ms = now; last_x = x; } } /** Represent modifiers currently activated. Sorted in the order they should be evaluated. */ public static final class Modifiers { private final KeyValue[] _mods; private final int _size; private Modifiers(KeyValue[] m, int s) { _mods = m; _size = s; } public KeyValue get(int i) { return _mods[_size - 1 - i]; } public int size() { return _size; } public boolean has(KeyValue.Modifier m) { for (int i = 0; i < _size; i++) { KeyValue kv = _mods[i]; switch (kv.getKind()) { case Modifier: if (kv.getModifier().equals(m)) return true; } } return false; } /** Returns the activated modifiers that are not in [m2]. */ public Iterator diff(Modifiers m2) { return new ModifiersDiffIterator(this, m2); } @Override public int hashCode() { return Arrays.hashCode(_mods); } @Override public boolean equals(Object obj) { return Arrays.equals(_mods, ((Modifiers)obj)._mods); } public static final Modifiers EMPTY = new Modifiers(new KeyValue[0], 0); protected static Modifiers ofArray(KeyValue[] mods, int size) { // Sort and remove duplicates and nulls. if (size > 1) { Arrays.sort(mods, 0, size); int j = 0; for (int i = 0; i < size; i++) { KeyValue m = mods[i]; if (m != null && (i + 1 >= size || m != mods[i + 1])) { mods[j] = m; j++; } } size = j; } return new Modifiers(mods, size); } /** Returns modifiers that are in [m1_] but not in [m2_]. */ static final class ModifiersDiffIterator implements Iterator { Modifiers m1; int i1 = 0; Modifiers m2; int i2 = 0; public ModifiersDiffIterator(Modifiers m1_, Modifiers m2_) { m1 = m1_; m2 = m2_; advance(); } public boolean hasNext() { return i1 < m1._size; } public KeyValue next() { if (i1 >= m1._size) throw new NoSuchElementException(); KeyValue m = m1._mods[i1]; i1++; advance(); return m; } /** Advance to the next element if [i1] is not a valid element. The end is reached when [i1 = m1.size()]. */ void advance() { while (i1 < m1.size()) { KeyValue m = m1._mods[i1]; while (true) { if (i2 >= m2._size) return; int d = m.compareTo(m2._mods[i2]); if (d < 0) return; i2++; if (d == 0) break; } i1++; } } } } public interface IPointerEventHandler { /** Key can be modified or removed by returning [null]. */ public KeyValue modifyKey(KeyValue k, Modifiers mods); /** A key is pressed. [getModifiers()] is uptodate. Might be called after a press or a swipe to a different value. Down events are not paired with up events. */ public void onPointerDown(KeyValue k, boolean isSwipe); /** Key is released. [k] is the key that was returned by [modifySelectedKey] or [modifySelectedKey]. */ public void onPointerUp(KeyValue k, Modifiers mods); /** Flags changed because latched or locked keys or cancelled pointers. */ public void onPointerFlagsChanged(boolean shouldVibrate); /** Key is repeating. */ public void onPointerHold(KeyValue k, Modifiers mods); } }