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|
/*
* Copyright (C) 2007 The Android Open Source Project
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package com.android.server;
import android.content.Context;
import android.content.res.Configuration;
import android.os.LatencyTimer;
import android.os.PowerManager;
import android.os.SystemClock;
import android.util.Log;
import android.util.SparseArray;
import android.view.Display;
import android.view.KeyEvent;
import android.view.MotionEvent;
import android.view.RawInputEvent;
import android.view.Surface;
import android.view.WindowManagerPolicy;
import java.io.BufferedReader;
import java.io.FileInputStream;
import java.io.FileNotFoundException;
import java.io.IOException;
import java.io.InputStreamReader;
import java.util.ArrayList;
public abstract class KeyInputQueue {
static final String TAG = "KeyInputQueue";
static final boolean DEBUG_VIRTUAL_KEYS = false;
final SparseArray<InputDevice> mDevices = new SparseArray<InputDevice>();
final ArrayList<VirtualKey> mVirtualKeys = new ArrayList<VirtualKey>();
int mGlobalMetaState = 0;
boolean mHaveGlobalMetaState = false;
final QueuedEvent mFirst;
final QueuedEvent mLast;
QueuedEvent mCache;
int mCacheCount;
Display mDisplay = null;
int mDisplayWidth;
int mDisplayHeight;
int mOrientation = Surface.ROTATION_0;
int[] mKeyRotationMap = null;
VirtualKey mPressedVirtualKey = null;
PowerManager.WakeLock mWakeLock;
static final int[] KEY_90_MAP = new int[] {
KeyEvent.KEYCODE_DPAD_DOWN, KeyEvent.KEYCODE_DPAD_RIGHT,
KeyEvent.KEYCODE_DPAD_RIGHT, KeyEvent.KEYCODE_DPAD_UP,
KeyEvent.KEYCODE_DPAD_UP, KeyEvent.KEYCODE_DPAD_LEFT,
KeyEvent.KEYCODE_DPAD_LEFT, KeyEvent.KEYCODE_DPAD_DOWN,
};
static final int[] KEY_180_MAP = new int[] {
KeyEvent.KEYCODE_DPAD_DOWN, KeyEvent.KEYCODE_DPAD_UP,
KeyEvent.KEYCODE_DPAD_RIGHT, KeyEvent.KEYCODE_DPAD_LEFT,
KeyEvent.KEYCODE_DPAD_UP, KeyEvent.KEYCODE_DPAD_DOWN,
KeyEvent.KEYCODE_DPAD_LEFT, KeyEvent.KEYCODE_DPAD_RIGHT,
};
static final int[] KEY_270_MAP = new int[] {
KeyEvent.KEYCODE_DPAD_DOWN, KeyEvent.KEYCODE_DPAD_LEFT,
KeyEvent.KEYCODE_DPAD_LEFT, KeyEvent.KEYCODE_DPAD_UP,
KeyEvent.KEYCODE_DPAD_UP, KeyEvent.KEYCODE_DPAD_RIGHT,
KeyEvent.KEYCODE_DPAD_RIGHT, KeyEvent.KEYCODE_DPAD_DOWN,
};
public static final int FILTER_REMOVE = 0;
public static final int FILTER_KEEP = 1;
public static final int FILTER_ABORT = -1;
private static final boolean MEASURE_LATENCY = false;
private LatencyTimer lt;
public interface FilterCallback {
int filterEvent(QueuedEvent ev);
}
static class QueuedEvent {
InputDevice inputDevice;
long whenNano;
int flags; // From the raw event
int classType; // One of the class constants in InputEvent
Object event;
boolean inQueue;
void copyFrom(QueuedEvent that) {
this.inputDevice = that.inputDevice;
this.whenNano = that.whenNano;
this.flags = that.flags;
this.classType = that.classType;
this.event = that.event;
}
@Override
public String toString() {
return "QueuedEvent{"
+ Integer.toHexString(System.identityHashCode(this))
+ " " + event + "}";
}
// not copied
QueuedEvent prev;
QueuedEvent next;
}
/**
* A key that exists as a part of the touch-screen, outside of the normal
* display area of the screen.
*/
static class VirtualKey {
int scancode;
int centerx;
int centery;
int width;
int height;
int hitLeft;
int hitTop;
int hitRight;
int hitBottom;
InputDevice lastDevice;
int lastKeycode;
boolean checkHit(int x, int y) {
return (x >= hitLeft && x <= hitRight
&& y >= hitTop && y <= hitBottom);
}
void computeHitRect(InputDevice dev, int dw, int dh) {
if (dev == lastDevice) {
return;
}
if (DEBUG_VIRTUAL_KEYS) Log.v(TAG, "computeHitRect for " + scancode
+ ": dev=" + dev + " absX=" + dev.absX + " absY=" + dev.absY);
lastDevice = dev;
int minx = dev.absX.minValue;
int maxx = dev.absX.maxValue;
int halfw = width/2;
int left = centerx - halfw;
int right = centerx + halfw;
hitLeft = minx + ((left*maxx-minx)/dw);
hitRight = minx + ((right*maxx-minx)/dw);
int miny = dev.absY.minValue;
int maxy = dev.absY.maxValue;
int halfh = height/2;
int top = centery - halfh;
int bottom = centery + halfh;
hitTop = miny + ((top*maxy-miny)/dh);
hitBottom = miny + ((bottom*maxy-miny)/dh);
}
}
KeyInputQueue(Context context) {
if (MEASURE_LATENCY) {
lt = new LatencyTimer(100, 1000);
}
try {
FileInputStream fis = new FileInputStream(
"/sys/board_properties/virtualkeys.synaptics-rmi-touchscreen");
InputStreamReader isr = new InputStreamReader(fis);
BufferedReader br = new BufferedReader(isr);
String str = br.readLine();
if (str != null) {
String[] it = str.split(":");
if (DEBUG_VIRTUAL_KEYS) Log.v(TAG, "***** VIRTUAL KEYS: " + it);
final int N = it.length-6;
for (int i=0; i<=N; i+=6) {
if (!"0x01".equals(it[i])) {
Log.w(TAG, "Unknown virtual key type at elem #" + i
+ ": " + it[i]);
continue;
}
try {
VirtualKey sb = new VirtualKey();
sb.scancode = Integer.parseInt(it[i+1]);
sb.centerx = Integer.parseInt(it[i+2]);
sb.centery = Integer.parseInt(it[i+3]);
sb.width = Integer.parseInt(it[i+4]);
sb.height = Integer.parseInt(it[i+5]);
if (DEBUG_VIRTUAL_KEYS) Log.v(TAG, "Virtual key "
+ sb.scancode + ": center=" + sb.centerx + ","
+ sb.centery + " size=" + sb.width + "x"
+ sb.height);
mVirtualKeys.add(sb);
} catch (NumberFormatException e) {
Log.w(TAG, "Bad number at region " + i + " in: "
+ str, e);
}
}
}
br.close();
} catch (FileNotFoundException e) {
Log.i(TAG, "No virtual keys found");
} catch (IOException e) {
Log.w(TAG, "Error reading virtual keys", e);
}
PowerManager pm = (PowerManager)context.getSystemService(
Context.POWER_SERVICE);
mWakeLock = pm.newWakeLock(PowerManager.PARTIAL_WAKE_LOCK,
"KeyInputQueue");
mWakeLock.setReferenceCounted(false);
mFirst = new QueuedEvent();
mLast = new QueuedEvent();
mFirst.next = mLast;
mLast.prev = mFirst;
mThread.start();
}
public void setDisplay(Display display) {
mDisplay = display;
// We assume at this point that the display dimensions reflect the
// natural, unrotated display. We will perform hit tests for soft
// buttons based on that display.
mDisplayWidth = display.getWidth();
mDisplayHeight = display.getHeight();
}
public void getInputConfiguration(Configuration config) {
synchronized (mFirst) {
config.touchscreen = Configuration.TOUCHSCREEN_NOTOUCH;
config.keyboard = Configuration.KEYBOARD_NOKEYS;
config.navigation = Configuration.NAVIGATION_NONAV;
final int N = mDevices.size();
for (int i=0; i<N; i++) {
InputDevice d = mDevices.valueAt(i);
if (d != null) {
if ((d.classes&RawInputEvent.CLASS_TOUCHSCREEN) != 0) {
config.touchscreen
= Configuration.TOUCHSCREEN_FINGER;
//Log.i("foo", "***** HAVE TOUCHSCREEN!");
}
if ((d.classes&RawInputEvent.CLASS_ALPHAKEY) != 0) {
config.keyboard
= Configuration.KEYBOARD_QWERTY;
//Log.i("foo", "***** HAVE QWERTY!");
}
if ((d.classes&RawInputEvent.CLASS_TRACKBALL) != 0) {
config.navigation
= Configuration.NAVIGATION_TRACKBALL;
//Log.i("foo", "***** HAVE TRACKBALL!");
}
}
}
}
}
public static native String getDeviceName(int deviceId);
public static native int getDeviceClasses(int deviceId);
public static native boolean getAbsoluteInfo(int deviceId, int axis,
InputDevice.AbsoluteInfo outInfo);
public static native int getSwitchState(int sw);
public static native int getSwitchState(int deviceId, int sw);
public static native int getScancodeState(int sw);
public static native int getScancodeState(int deviceId, int sw);
public static native int getKeycodeState(int sw);
public static native int getKeycodeState(int deviceId, int sw);
public static native int scancodeToKeycode(int deviceId, int scancode);
public static native boolean hasKeys(int[] keycodes, boolean[] keyExists);
public static KeyEvent newKeyEvent(InputDevice device, long downTime,
long eventTime, boolean down, int keycode, int repeatCount,
int scancode, int flags) {
return new KeyEvent(
downTime, eventTime,
down ? KeyEvent.ACTION_DOWN : KeyEvent.ACTION_UP,
keycode, repeatCount,
device != null ? device.mMetaKeysState : 0,
device != null ? device.id : -1, scancode,
flags | KeyEvent.FLAG_FROM_SYSTEM);
}
Thread mThread = new Thread("InputDeviceReader") {
public void run() {
android.os.Process.setThreadPriority(
android.os.Process.THREAD_PRIORITY_URGENT_DISPLAY);
try {
RawInputEvent ev = new RawInputEvent();
while (true) {
InputDevice di;
// block, doesn't release the monitor
readEvent(ev);
boolean send = false;
boolean configChanged = false;
if (false) {
Log.i(TAG, "Input event: dev=0x"
+ Integer.toHexString(ev.deviceId)
+ " type=0x" + Integer.toHexString(ev.type)
+ " scancode=" + ev.scancode
+ " keycode=" + ev.keycode
+ " value=" + ev.value);
}
if (ev.type == RawInputEvent.EV_DEVICE_ADDED) {
synchronized (mFirst) {
di = newInputDevice(ev.deviceId);
mDevices.put(ev.deviceId, di);
configChanged = true;
}
} else if (ev.type == RawInputEvent.EV_DEVICE_REMOVED) {
synchronized (mFirst) {
Log.i(TAG, "Device removed: id=0x"
+ Integer.toHexString(ev.deviceId));
di = mDevices.get(ev.deviceId);
if (di != null) {
mDevices.delete(ev.deviceId);
configChanged = true;
} else {
Log.w(TAG, "Bad device id: " + ev.deviceId);
}
}
} else {
di = getInputDevice(ev.deviceId);
// first crack at it
send = preprocessEvent(di, ev);
if (ev.type == RawInputEvent.EV_KEY) {
di.mMetaKeysState = makeMetaState(ev.keycode,
ev.value != 0, di.mMetaKeysState);
mHaveGlobalMetaState = false;
}
}
if (di == null) {
continue;
}
if (configChanged) {
synchronized (mFirst) {
addLocked(di, System.nanoTime(), 0,
RawInputEvent.CLASS_CONFIGURATION_CHANGED,
null);
}
}
if (!send) {
continue;
}
synchronized (mFirst) {
// NOTE: The event timebase absolutely must be the same
// timebase as SystemClock.uptimeMillis().
//curTime = gotOne ? ev.when : SystemClock.uptimeMillis();
final long curTime = SystemClock.uptimeMillis();
final long curTimeNano = System.nanoTime();
//Log.i(TAG, "curTime=" + curTime + ", systemClock=" + SystemClock.uptimeMillis());
final int classes = di.classes;
final int type = ev.type;
final int scancode = ev.scancode;
send = false;
// Is it a key event?
if (type == RawInputEvent.EV_KEY &&
(classes&RawInputEvent.CLASS_KEYBOARD) != 0 &&
(scancode < RawInputEvent.BTN_FIRST ||
scancode > RawInputEvent.BTN_LAST)) {
boolean down;
if (ev.value != 0) {
down = true;
di.mDownTime = curTime;
} else {
down = false;
}
int keycode = rotateKeyCodeLocked(ev.keycode);
addLocked(di, curTimeNano, ev.flags,
RawInputEvent.CLASS_KEYBOARD,
newKeyEvent(di, di.mDownTime, curTime, down,
keycode, 0, scancode,
((ev.flags & WindowManagerPolicy.FLAG_WOKE_HERE) != 0)
? KeyEvent.FLAG_WOKE_HERE : 0));
} else if (ev.type == RawInputEvent.EV_KEY) {
if (ev.scancode == RawInputEvent.BTN_TOUCH &&
(classes&RawInputEvent.CLASS_TOUCHSCREEN) != 0) {
di.mAbs.changed = true;
di.mAbs.down = ev.value != 0;
}
if (ev.scancode == RawInputEvent.BTN_MOUSE &&
(classes&RawInputEvent.CLASS_TRACKBALL) != 0) {
di.mRel.changed = true;
di.mRel.down = ev.value != 0;
send = true;
}
} else if (ev.type == RawInputEvent.EV_ABS &&
(classes&RawInputEvent.CLASS_TOUCHSCREEN) != 0) {
if (ev.scancode == RawInputEvent.ABS_X) {
di.mAbs.changed = true;
di.mAbs.x = ev.value;
} else if (ev.scancode == RawInputEvent.ABS_Y) {
di.mAbs.changed = true;
di.mAbs.y = ev.value;
} else if (ev.scancode == RawInputEvent.ABS_PRESSURE) {
di.mAbs.changed = true;
di.mAbs.pressure = ev.value;
} else if (ev.scancode == RawInputEvent.ABS_TOOL_WIDTH) {
di.mAbs.changed = true;
di.mAbs.size = ev.value;
}
} else if (ev.type == RawInputEvent.EV_REL &&
(classes&RawInputEvent.CLASS_TRACKBALL) != 0) {
// Add this relative movement into our totals.
if (ev.scancode == RawInputEvent.REL_X) {
di.mRel.changed = true;
di.mRel.x += ev.value;
} else if (ev.scancode == RawInputEvent.REL_Y) {
di.mRel.changed = true;
di.mRel.y += ev.value;
}
}
if (send || ev.type == RawInputEvent.EV_SYN) {
if (mDisplay != null) {
if (!mHaveGlobalMetaState) {
computeGlobalMetaStateLocked();
}
MotionEvent me;
InputDevice.MotionState ms = di.mAbs;
if (ms.changed) {
ms.changed = false;
boolean doMotion = true;
// Look for virtual buttons.
VirtualKey vk = mPressedVirtualKey;
if (vk != null) {
doMotion = false;
if (!ms.down) {
mPressedVirtualKey = null;
ms.lastDown = ms.down;
if (DEBUG_VIRTUAL_KEYS) Log.v(TAG,
"Generate key up for: " + vk.scancode);
addLocked(di, curTimeNano, ev.flags,
RawInputEvent.CLASS_KEYBOARD,
newKeyEvent(di, di.mDownTime,
curTime, false,
vk.lastKeycode,
0, vk.scancode, 0));
}
} else if (ms.down && !ms.lastDown) {
vk = findSoftButton(di);
if (vk != null) {
doMotion = false;
mPressedVirtualKey = vk;
vk.lastKeycode = scancodeToKeycode(
di.id, vk.scancode);
ms.lastDown = ms.down;
di.mDownTime = curTime;
if (DEBUG_VIRTUAL_KEYS) Log.v(TAG,
"Generate key down for: " + vk.scancode
+ " (keycode=" + vk.lastKeycode + ")");
addLocked(di, curTimeNano, ev.flags,
RawInputEvent.CLASS_KEYBOARD,
newKeyEvent(di, di.mDownTime,
curTime, true,
vk.lastKeycode, 0,
vk.scancode, 0));
}
}
if (doMotion) {
me = ms.generateMotion(di, curTime,
curTimeNano, true, mDisplay,
mOrientation, mGlobalMetaState);
if (false) Log.v(TAG, "Absolute: x=" + di.mAbs.x
+ " y=" + di.mAbs.y + " ev=" + me);
if (me != null) {
if (WindowManagerPolicy.WATCH_POINTER) {
Log.i(TAG, "Enqueueing: " + me);
}
addLocked(di, curTimeNano, ev.flags,
RawInputEvent.CLASS_TOUCHSCREEN, me);
}
}
}
ms = di.mRel;
if (ms.changed) {
ms.changed = false;
me = ms.generateMotion(di, curTime,
curTimeNano, false, mDisplay,
mOrientation, mGlobalMetaState);
if (false) Log.v(TAG, "Relative: x=" + di.mRel.x
+ " y=" + di.mRel.y + " ev=" + me);
if (me != null) {
addLocked(di, curTimeNano, ev.flags,
RawInputEvent.CLASS_TRACKBALL, me);
}
}
}
}
}
}
} catch (RuntimeException exc) {
Log.e(TAG, "InputReaderThread uncaught exception", exc);
}
}
};
private VirtualKey findSoftButton(InputDevice dev) {
final int N = mVirtualKeys.size();
if (N <= 0) {
return null;
}
final InputDevice.AbsoluteInfo absx = dev.absX;
final InputDevice.AbsoluteInfo absy = dev.absY;
final InputDevice.MotionState absm = dev.mAbs;
if (absx == null || absy == null || absm == null) {
return null;
}
if (absm.x >= absx.minValue && absm.x <= absx.maxValue
&& absm.y >= absy.minValue && absm.y <= absy.maxValue) {
if (DEBUG_VIRTUAL_KEYS) Log.v(TAG, "Input (" + absm.x
+ "," + absm.y + ") inside of display");
return null;
}
for (int i=0; i<N; i++) {
VirtualKey sb = mVirtualKeys.get(i);
sb.computeHitRect(dev, mDisplayWidth, mDisplayHeight);
if (DEBUG_VIRTUAL_KEYS) Log.v(TAG, "Hit test (" + absm.x + ","
+ absm.y + ") in code " + sb.scancode + " - (" + sb.hitLeft
+ "," + sb.hitTop + ")-(" + sb.hitRight + ","
+ sb.hitBottom + ")");
if (sb.checkHit(absm.x, absm.y)) {
if (DEBUG_VIRTUAL_KEYS) Log.v(TAG, "Hit!");
return sb;
}
}
return null;
}
/**
* Returns a new meta state for the given keys and old state.
*/
private static final int makeMetaState(int keycode, boolean down, int old) {
int mask;
switch (keycode) {
case KeyEvent.KEYCODE_ALT_LEFT:
mask = KeyEvent.META_ALT_LEFT_ON;
break;
case KeyEvent.KEYCODE_ALT_RIGHT:
mask = KeyEvent.META_ALT_RIGHT_ON;
break;
case KeyEvent.KEYCODE_SHIFT_LEFT:
mask = KeyEvent.META_SHIFT_LEFT_ON;
break;
case KeyEvent.KEYCODE_SHIFT_RIGHT:
mask = KeyEvent.META_SHIFT_RIGHT_ON;
break;
case KeyEvent.KEYCODE_SYM:
mask = KeyEvent.META_SYM_ON;
break;
default:
return old;
}
int result = ~(KeyEvent.META_ALT_ON | KeyEvent.META_SHIFT_ON)
& (down ? (old | mask) : (old & ~mask));
if (0 != (result & (KeyEvent.META_ALT_LEFT_ON | KeyEvent.META_ALT_RIGHT_ON))) {
result |= KeyEvent.META_ALT_ON;
}
if (0 != (result & (KeyEvent.META_SHIFT_LEFT_ON | KeyEvent.META_SHIFT_RIGHT_ON))) {
result |= KeyEvent.META_SHIFT_ON;
}
return result;
}
private void computeGlobalMetaStateLocked() {
int i = mDevices.size();
mGlobalMetaState = 0;
while ((--i) >= 0) {
mGlobalMetaState |= mDevices.valueAt(i).mMetaKeysState;
}
mHaveGlobalMetaState = true;
}
/*
* Return true if you want the event to get passed on to the
* rest of the system, and false if you've handled it and want
* it dropped.
*/
abstract boolean preprocessEvent(InputDevice device, RawInputEvent event);
InputDevice getInputDevice(int deviceId) {
synchronized (mFirst) {
return getInputDeviceLocked(deviceId);
}
}
private InputDevice getInputDeviceLocked(int deviceId) {
return mDevices.get(deviceId);
}
public void setOrientation(int orientation) {
synchronized(mFirst) {
mOrientation = orientation;
switch (orientation) {
case Surface.ROTATION_90:
mKeyRotationMap = KEY_90_MAP;
break;
case Surface.ROTATION_180:
mKeyRotationMap = KEY_180_MAP;
break;
case Surface.ROTATION_270:
mKeyRotationMap = KEY_270_MAP;
break;
default:
mKeyRotationMap = null;
break;
}
}
}
public int rotateKeyCode(int keyCode) {
synchronized(mFirst) {
return rotateKeyCodeLocked(keyCode);
}
}
private int rotateKeyCodeLocked(int keyCode) {
int[] map = mKeyRotationMap;
if (map != null) {
final int N = map.length;
for (int i=0; i<N; i+=2) {
if (map[i] == keyCode) {
return map[i+1];
}
}
}
return keyCode;
}
boolean hasEvents() {
synchronized (mFirst) {
return mFirst.next != mLast;
}
}
/*
* returns true if we returned an event, and false if we timed out
*/
QueuedEvent getEvent(long timeoutMS) {
long begin = SystemClock.uptimeMillis();
final long end = begin+timeoutMS;
long now = begin;
synchronized (mFirst) {
while (mFirst.next == mLast && end > now) {
try {
mWakeLock.release();
mFirst.wait(end-now);
}
catch (InterruptedException e) {
}
now = SystemClock.uptimeMillis();
if (begin > now) {
begin = now;
}
}
if (mFirst.next == mLast) {
return null;
}
QueuedEvent p = mFirst.next;
mFirst.next = p.next;
mFirst.next.prev = mFirst;
p.inQueue = false;
return p;
}
}
void recycleEvent(QueuedEvent ev) {
synchronized (mFirst) {
//Log.i(TAG, "Recycle event: " + ev);
if (ev.event == ev.inputDevice.mAbs.currentMove) {
ev.inputDevice.mAbs.currentMove = null;
}
if (ev.event == ev.inputDevice.mRel.currentMove) {
if (false) Log.i(TAG, "Detach rel " + ev.event);
ev.inputDevice.mRel.currentMove = null;
ev.inputDevice.mRel.x = 0;
ev.inputDevice.mRel.y = 0;
}
recycleLocked(ev);
}
}
void filterQueue(FilterCallback cb) {
synchronized (mFirst) {
QueuedEvent cur = mLast.prev;
while (cur.prev != null) {
switch (cb.filterEvent(cur)) {
case FILTER_REMOVE:
cur.prev.next = cur.next;
cur.next.prev = cur.prev;
break;
case FILTER_ABORT:
return;
}
cur = cur.prev;
}
}
}
private QueuedEvent obtainLocked(InputDevice device, long whenNano,
int flags, int classType, Object event) {
QueuedEvent ev;
if (mCacheCount == 0) {
ev = new QueuedEvent();
} else {
ev = mCache;
ev.inQueue = false;
mCache = ev.next;
mCacheCount--;
}
ev.inputDevice = device;
ev.whenNano = whenNano;
ev.flags = flags;
ev.classType = classType;
ev.event = event;
return ev;
}
private void recycleLocked(QueuedEvent ev) {
if (ev.inQueue) {
throw new RuntimeException("Event already in queue!");
}
if (mCacheCount < 10) {
mCacheCount++;
ev.next = mCache;
mCache = ev;
ev.inQueue = true;
}
}
private void addLocked(InputDevice device, long whenNano, int flags,
int classType, Object event) {
boolean poke = mFirst.next == mLast;
QueuedEvent ev = obtainLocked(device, whenNano, flags, classType, event);
QueuedEvent p = mLast.prev;
while (p != mFirst && ev.whenNano < p.whenNano) {
p = p.prev;
}
ev.next = p.next;
ev.prev = p;
p.next = ev;
ev.next.prev = ev;
ev.inQueue = true;
if (poke) {
long time;
if (MEASURE_LATENCY) {
time = System.nanoTime();
}
mFirst.notify();
mWakeLock.acquire();
if (MEASURE_LATENCY) {
lt.sample("1 addLocked-queued event ", System.nanoTime() - time);
}
}
}
private InputDevice newInputDevice(int deviceId) {
int classes = getDeviceClasses(deviceId);
String name = getDeviceName(deviceId);
Log.i(TAG, "Device added: id=0x" + Integer.toHexString(deviceId)
+ ", name=" + name
+ ", classes=" + Integer.toHexString(classes));
InputDevice.AbsoluteInfo absX;
InputDevice.AbsoluteInfo absY;
InputDevice.AbsoluteInfo absPressure;
InputDevice.AbsoluteInfo absSize;
if ((classes&RawInputEvent.CLASS_TOUCHSCREEN) != 0) {
absX = loadAbsoluteInfo(deviceId, RawInputEvent.ABS_X, "X");
absY = loadAbsoluteInfo(deviceId, RawInputEvent.ABS_Y, "Y");
absPressure = loadAbsoluteInfo(deviceId, RawInputEvent.ABS_PRESSURE, "Pressure");
absSize = loadAbsoluteInfo(deviceId, RawInputEvent.ABS_TOOL_WIDTH, "Size");
} else {
absX = null;
absY = null;
absPressure = null;
absSize = null;
}
return new InputDevice(deviceId, classes, name, absX, absY, absPressure, absSize);
}
private InputDevice.AbsoluteInfo loadAbsoluteInfo(int id, int channel,
String name) {
InputDevice.AbsoluteInfo info = new InputDevice.AbsoluteInfo();
if (getAbsoluteInfo(id, channel, info)
&& info.minValue != info.maxValue) {
Log.i(TAG, " " + name + ": min=" + info.minValue
+ " max=" + info.maxValue
+ " flat=" + info.flat
+ " fuzz=" + info.fuzz);
info.range = info.maxValue-info.minValue;
return info;
}
Log.i(TAG, " " + name + ": unknown values");
return null;
}
private static native boolean readEvent(RawInputEvent outEvent);
}
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