Unexpected-Keyboard/srcs/juloo.keyboard2/Pointers.java

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package juloo.keyboard2;
import android.os.Handler;
import android.os.Message;
import java.util.ArrayList;
/**
* Manage pointers (fingers) on the screen and long presses.
* Call back to IPointerEventHandler.
*/
public final class Pointers implements Handler.Callback
{
private Handler _keyrepeat_handler;
private ArrayList<Pointer> _ptrs = new ArrayList<Pointer>();
private IPointerEventHandler _handler;
private Config _config;
public Pointers(IPointerEventHandler h, Config c)
{
_keyrepeat_handler = new Handler(this);
_handler = h;
_config = c;
}
public int getFlags()
{
int flags = 0;
for (Pointer p : _ptrs)
flags |= p.flags;
return flags;
}
public void clear()
{
_ptrs.clear();
}
public boolean isKeyDown(KeyboardData.Key k)
{
for (Pointer p : _ptrs)
if (p.key == k)
return true;
return false;
}
/**
* These flags can be different:
* FLAG_LOCK Removed when the key is locked
* FLAG_LOCKED Added when the key is locked
* FLAG_LATCH Removed when the key is latched (released but not consumed yet)
* Returns [-1] if not found.
*/
public int getKeyFlags(KeyValue kv)
{
// Use physical equality because the key might have been modified.
String name = kv.name;
for (Pointer p : _ptrs)
if (p.value != null && p.value.name == name)
return p.flags;
return -1;
}
// Receiving events
public void onTouchUp(int pointerId)
{
Pointer ptr = getPtr(pointerId);
if (ptr == null)
return;
stopKeyRepeat(ptr);
Pointer latched = getLatched(ptr);
if (latched != null) // Already latched
{
removePtr(ptr); // Remove dupplicate
if ((latched.flags & KeyValue.FLAG_LOCK) != 0) // Locking key, toggle lock
{
latched.flags = (latched.flags & ~KeyValue.FLAG_LOCK) | KeyValue.FLAG_LOCKED;
_handler.onPointerFlagsChanged();
}
else // Otherwise, unlatch
{
removePtr(latched);
_handler.onPointerUp(ptr.value);
}
}
else if ((ptr.flags & KeyValue.FLAG_LATCH) != 0)
{
ptr.flags &= ~KeyValue.FLAG_LATCH;
ptr.pointerId = -1; // Latch
_handler.onPointerFlagsChanged();
}
else
{
clearLatched();
removePtr(ptr);
_handler.onPointerUp(ptr.value);
}
}
public void onTouchCancel(int pointerId)
{
Pointer ptr = getPtr(pointerId);
if (ptr == null)
return;
stopKeyRepeat(ptr);
removePtr(ptr);
_handler.onPointerFlagsChanged();
}
public void onTouchDown(float x, float y, int pointerId, KeyboardData.Key key)
{
// Ignore new presses while a modulated key is active. On some devices,
// ghost touch events can happen while the pointer travels on top of other
// keys.
if (isModulatedKeyPressed())
return;
KeyValue value = _handler.onPointerDown(key.key0);
Pointer ptr = new Pointer(pointerId, key, 0, value, x, y);
_ptrs.add(ptr);
if (value != null && (value.flags & KeyValue.FLAG_NOREPEAT) == 0)
startKeyRepeat(ptr);
}
public void onTouchMove(float x, float y, int pointerId)
{
Pointer ptr = getPtr(pointerId);
if (ptr == null)
return;
float dx = x - ptr.downX;
float dy = y - ptr.downY;
float dist = Math.abs(dx) + Math.abs(dy);
ptr.ptrDist = dist;
int newIndex;
if (dist < _config.swipe_dist_px)
{
newIndex = 0;
}
else if (ptr.key.edgekeys)
{
if (Math.abs(dy) > Math.abs(dx)) // vertical swipe
newIndex = (dy < 0) ? 1 : 4;
else // horizontal swipe
newIndex = (dx < 0) ? 3 : 2;
}
else
{
if (dx < 0) // left side
newIndex = (dy < 0) ? 1 : 3;
else // right side
newIndex = (dy < 0) ? 2 : 4;
}
if (newIndex != ptr.value_index)
{
ptr.value_index = newIndex;
KeyValue newValue = _handler.onPointerSwipe(ptr.key.getValue(newIndex));
if (newValue != null)
{
int old_flags = ptr.flags;
ptr.value = newValue;
ptr.flags = newValue.flags;
// Keep the keyrepeat going between modulated keys.
if ((old_flags & newValue.flags & KeyValue.FLAG_PRECISE_REPEAT) == 0)
{
stopKeyRepeat(ptr);
if ((newValue.flags & KeyValue.FLAG_NOREPEAT) == 0)
startKeyRepeat(ptr);
}
}
}
}
// 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)
{
KeyboardData.Key k = target.key;
int vi = target.value_index;
for (Pointer p : _ptrs)
if (p.key == k && p.value_index == vi && p.pointerId == -1)
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.pointerId == -1 && (ptr.flags & KeyValue.FLAG_LOCKED) == 0)
_ptrs.remove(i);
// Not latched but pressed, don't latch once released
else if ((ptr.flags & KeyValue.FLAG_LATCH) != 0)
ptr.flags &= ~KeyValue.FLAG_LATCH;
}
}
private boolean isModulatedKeyPressed()
{
for (Pointer ptr : _ptrs)
{
if ((ptr.flags & KeyValue.FLAG_PRECISE_REPEAT) != 0)
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)
{
long nextInterval = _config.longPressInterval;
if (_config.preciseRepeat && (ptr.flags & KeyValue.FLAG_PRECISE_REPEAT) != 0)
{
// Slower repeat for modulated keys
nextInterval *= 2;
// Modulate repeat interval depending on the distance of the pointer
nextInterval = (long)((float)nextInterval / modulatePreciseRepeat(ptr));
}
_keyrepeat_handler.sendEmptyMessageDelayed(msg.what, nextInterval);
_handler.onPointerHold(ptr.value);
return (true);
}
}
return (false);
}
private static int uniqueTimeoutWhat = 0;
private void startKeyRepeat(Pointer ptr)
{
int what = (uniqueTimeoutWhat++);
ptr.timeoutWhat = what;
long timeout = _config.longPressTimeout;
// Faster repeat timeout for modulated keys
if ((ptr.flags & KeyValue.FLAG_PRECISE_REPEAT) != 0)
timeout /= 2;
_keyrepeat_handler.sendEmptyMessageDelayed(what, timeout);
}
private void stopKeyRepeat(Pointer ptr)
{
if (ptr.timeoutWhat != -1)
{
_keyrepeat_handler.removeMessages(ptr.timeoutWhat);
ptr.timeoutWhat = -1;
ptr.repeatingPtrDist = -1.f;
}
}
private float modulatePreciseRepeat(Pointer ptr)
{
if (ptr.repeatingPtrDist < 0.f)
ptr.repeatingPtrDist = ptr.ptrDist; // First repeat
if (ptr.ptrDist > ptr.repeatingPtrDist * 2.f)
ptr.repeatingPtrDist = ptr.ptrDist / 2.f; // Large swipe, move the middle point
float left = ptr.repeatingPtrDist / 2.f;
float accel = (ptr.ptrDist - left) / (ptr.repeatingPtrDist - left);
return Math.min(8.f, Math.max(0.1f, accel));
}
private final class Pointer
{
/** -1 when latched. */
public int pointerId;
public final KeyboardData.Key key;
public int value_index;
/** Modified value. Not equal to [key.getValue(value_index)]. */
public KeyValue value;
public float downX;
public float downY;
/** Distance of the pointer to the initial press. */
public float ptrDist;
public int flags;
/** Identify timeout messages. */
public int timeoutWhat;
/** ptrDist at the first repeat, -1 otherwise. */
public float repeatingPtrDist;
public Pointer(int p, KeyboardData.Key k, int vi, KeyValue v, float x, float y)
{
pointerId = p;
key = k;
value_index = vi;
value = v;
downX = x;
downY = y;
ptrDist = 0.f;
flags = (v == null) ? 0 : v.flags;
timeoutWhat = -1;
repeatingPtrDist = -1.f;
}
}
public interface IPointerEventHandler
{
/** A key is pressed. Key can be modified or removed by returning [null].
[getFlags()] is not uptodate. */
public KeyValue onPointerDown(KeyValue k);
/** Pointer swipes into a corner. Key can be modified or removed. */
public KeyValue onPointerSwipe(KeyValue k);
/** Key is released. [k] is the key that was returned by [onPointerDown] or
[onPointerSwipe]. */
public void onPointerUp(KeyValue k);
/** Flags changed because latched or locked keys or cancelled pointers. */
public void onPointerFlagsChanged();
/** Key is repeating. */
public void onPointerHold(KeyValue k);
}
}