d5ed285606
Added some plumbing to enable the policy to intercept motion events when the screen is off to handle wakeup if needed. Added a basic concept of an external device to limit the scope of the wakeup policy to external devices only. The wakeup policy for internal devices should be based on explicit rules such as policy flags in key layout files. Moved isTouchEvent to native. Ensure the dispatcher sends the right event type to userActivity for non-touch pointer events like HOVER_MOVE and SCROLL. Bug: 3193114 Change-Id: I15dbd48a16810dfaf226ff7ad117d46908ca4f86
680 lines
20 KiB
C++
680 lines
20 KiB
C++
//
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// Copyright 2010 The Android Open Source Project
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//
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// Provides a pipe-based transport for native events in the NDK.
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//
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#define LOG_TAG "Input"
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//#define LOG_NDEBUG 0
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#define DEBUG_PROBE 0
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#include <stdlib.h>
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#include <unistd.h>
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#include <ctype.h>
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#include <ui/Input.h>
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#include <math.h>
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#ifdef HAVE_ANDROID_OS
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#include <binder/Parcel.h>
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#include "SkPoint.h"
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#include "SkMatrix.h"
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#include "SkScalar.h"
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#endif
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namespace android {
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static const char* CONFIGURATION_FILE_DIR[] = {
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"idc/",
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"keylayout/",
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"keychars/",
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};
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static const char* CONFIGURATION_FILE_EXTENSION[] = {
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".idc",
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".kl",
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".kcm",
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};
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static bool isValidNameChar(char ch) {
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return isascii(ch) && (isdigit(ch) || isalpha(ch) || ch == '-' || ch == '_');
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}
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static void appendInputDeviceConfigurationFileRelativePath(String8& path,
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const String8& name, InputDeviceConfigurationFileType type) {
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path.append(CONFIGURATION_FILE_DIR[type]);
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for (size_t i = 0; i < name.length(); i++) {
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char ch = name[i];
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if (!isValidNameChar(ch)) {
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ch = '_';
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}
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path.append(&ch, 1);
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}
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path.append(CONFIGURATION_FILE_EXTENSION[type]);
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}
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String8 getInputDeviceConfigurationFilePathByDeviceIdentifier(
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const InputDeviceIdentifier& deviceIdentifier,
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InputDeviceConfigurationFileType type) {
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if (deviceIdentifier.vendor !=0 && deviceIdentifier.product != 0) {
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if (deviceIdentifier.version != 0) {
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// Try vendor product version.
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String8 versionPath(getInputDeviceConfigurationFilePathByName(
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String8::format("Vendor_%04x_Product_%04x_Version_%04x",
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deviceIdentifier.vendor, deviceIdentifier.product,
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deviceIdentifier.version),
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type));
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if (!versionPath.isEmpty()) {
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return versionPath;
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}
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}
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// Try vendor product.
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String8 productPath(getInputDeviceConfigurationFilePathByName(
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String8::format("Vendor_%04x_Product_%04x",
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deviceIdentifier.vendor, deviceIdentifier.product),
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type));
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if (!productPath.isEmpty()) {
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return productPath;
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}
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}
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// Try device name.
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return getInputDeviceConfigurationFilePathByName(deviceIdentifier.name, type);
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}
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String8 getInputDeviceConfigurationFilePathByName(
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const String8& name, InputDeviceConfigurationFileType type) {
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// Search system repository.
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String8 path;
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path.setTo(getenv("ANDROID_ROOT"));
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path.append("/usr/");
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appendInputDeviceConfigurationFileRelativePath(path, name, type);
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#if DEBUG_PROBE
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LOGD("Probing for system provided input device configuration file: path='%s'", path.string());
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#endif
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if (!access(path.string(), R_OK)) {
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#if DEBUG_PROBE
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LOGD("Found");
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#endif
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return path;
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}
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// Search user repository.
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// TODO Should only look here if not in safe mode.
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path.setTo(getenv("ANDROID_DATA"));
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path.append("/system/devices/");
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appendInputDeviceConfigurationFileRelativePath(path, name, type);
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#if DEBUG_PROBE
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LOGD("Probing for system user input device configuration file: path='%s'", path.string());
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#endif
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if (!access(path.string(), R_OK)) {
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#if DEBUG_PROBE
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LOGD("Found");
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#endif
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return path;
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}
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// Not found.
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#if DEBUG_PROBE
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LOGD("Probe failed to find input device configuration file: name='%s', type=%d",
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name.string(), type);
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#endif
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return String8();
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}
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// --- InputEvent ---
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void InputEvent::initialize(int32_t deviceId, int32_t source) {
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mDeviceId = deviceId;
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mSource = source;
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}
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void InputEvent::initialize(const InputEvent& from) {
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mDeviceId = from.mDeviceId;
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mSource = from.mSource;
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}
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// --- KeyEvent ---
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bool KeyEvent::hasDefaultAction(int32_t keyCode) {
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switch (keyCode) {
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case AKEYCODE_HOME:
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case AKEYCODE_BACK:
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case AKEYCODE_CALL:
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case AKEYCODE_ENDCALL:
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case AKEYCODE_VOLUME_UP:
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case AKEYCODE_VOLUME_DOWN:
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case AKEYCODE_VOLUME_MUTE:
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case AKEYCODE_POWER:
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case AKEYCODE_CAMERA:
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case AKEYCODE_HEADSETHOOK:
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case AKEYCODE_MENU:
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case AKEYCODE_NOTIFICATION:
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case AKEYCODE_FOCUS:
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case AKEYCODE_SEARCH:
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case AKEYCODE_MEDIA_PLAY:
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case AKEYCODE_MEDIA_PAUSE:
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case AKEYCODE_MEDIA_PLAY_PAUSE:
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case AKEYCODE_MEDIA_STOP:
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case AKEYCODE_MEDIA_NEXT:
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case AKEYCODE_MEDIA_PREVIOUS:
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case AKEYCODE_MEDIA_REWIND:
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case AKEYCODE_MEDIA_RECORD:
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case AKEYCODE_MEDIA_FAST_FORWARD:
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case AKEYCODE_MUTE:
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return true;
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}
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return false;
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}
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bool KeyEvent::hasDefaultAction() const {
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return hasDefaultAction(getKeyCode());
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}
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bool KeyEvent::isSystemKey(int32_t keyCode) {
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switch (keyCode) {
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case AKEYCODE_MENU:
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case AKEYCODE_SOFT_RIGHT:
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case AKEYCODE_HOME:
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case AKEYCODE_BACK:
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case AKEYCODE_CALL:
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case AKEYCODE_ENDCALL:
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case AKEYCODE_VOLUME_UP:
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case AKEYCODE_VOLUME_DOWN:
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case AKEYCODE_VOLUME_MUTE:
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case AKEYCODE_MUTE:
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case AKEYCODE_POWER:
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case AKEYCODE_HEADSETHOOK:
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case AKEYCODE_MEDIA_PLAY:
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case AKEYCODE_MEDIA_PAUSE:
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case AKEYCODE_MEDIA_PLAY_PAUSE:
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case AKEYCODE_MEDIA_STOP:
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case AKEYCODE_MEDIA_NEXT:
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case AKEYCODE_MEDIA_PREVIOUS:
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case AKEYCODE_MEDIA_REWIND:
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case AKEYCODE_MEDIA_RECORD:
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case AKEYCODE_MEDIA_FAST_FORWARD:
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case AKEYCODE_CAMERA:
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case AKEYCODE_FOCUS:
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case AKEYCODE_SEARCH:
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return true;
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}
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return false;
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}
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bool KeyEvent::isSystemKey() const {
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return isSystemKey(getKeyCode());
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}
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void KeyEvent::initialize(
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int32_t deviceId,
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int32_t source,
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int32_t action,
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int32_t flags,
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int32_t keyCode,
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int32_t scanCode,
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int32_t metaState,
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int32_t repeatCount,
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nsecs_t downTime,
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nsecs_t eventTime) {
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InputEvent::initialize(deviceId, source);
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mAction = action;
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mFlags = flags;
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mKeyCode = keyCode;
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mScanCode = scanCode;
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mMetaState = metaState;
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mRepeatCount = repeatCount;
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mDownTime = downTime;
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mEventTime = eventTime;
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}
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void KeyEvent::initialize(const KeyEvent& from) {
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InputEvent::initialize(from);
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mAction = from.mAction;
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mFlags = from.mFlags;
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mKeyCode = from.mKeyCode;
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mScanCode = from.mScanCode;
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mMetaState = from.mMetaState;
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mRepeatCount = from.mRepeatCount;
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mDownTime = from.mDownTime;
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mEventTime = from.mEventTime;
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}
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// --- PointerCoords ---
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float PointerCoords::getAxisValue(int32_t axis) const {
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if (axis < 0 || axis > 63) {
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return 0;
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}
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uint64_t axisBit = 1LL << axis;
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if (!(bits & axisBit)) {
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return 0;
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}
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uint32_t index = __builtin_popcountll(bits & (axisBit - 1LL));
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return values[index];
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}
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status_t PointerCoords::setAxisValue(int32_t axis, float value) {
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if (axis < 0 || axis > 63) {
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return NAME_NOT_FOUND;
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}
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uint64_t axisBit = 1LL << axis;
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uint32_t index = __builtin_popcountll(bits & (axisBit - 1LL));
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if (!(bits & axisBit)) {
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uint32_t count = __builtin_popcountll(bits);
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if (count >= MAX_AXES) {
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tooManyAxes(axis);
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return NO_MEMORY;
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}
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bits |= axisBit;
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for (uint32_t i = count; i > index; i--) {
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values[i] = values[i - 1];
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}
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}
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values[index] = value;
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return OK;
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}
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float* PointerCoords::editAxisValue(int32_t axis) {
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if (axis < 0 || axis > 63) {
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return NULL;
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}
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uint64_t axisBit = 1LL << axis;
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if (!(bits & axisBit)) {
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return NULL;
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}
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uint32_t index = __builtin_popcountll(bits & (axisBit - 1LL));
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return &values[index];
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}
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#ifdef HAVE_ANDROID_OS
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status_t PointerCoords::readFromParcel(Parcel* parcel) {
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bits = parcel->readInt64();
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uint32_t count = __builtin_popcountll(bits);
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if (count > MAX_AXES) {
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return BAD_VALUE;
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}
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for (uint32_t i = 0; i < count; i++) {
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values[i] = parcel->readInt32();
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}
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return OK;
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}
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status_t PointerCoords::writeToParcel(Parcel* parcel) const {
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parcel->writeInt64(bits);
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uint32_t count = __builtin_popcountll(bits);
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for (uint32_t i = 0; i < count; i++) {
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parcel->writeInt32(values[i]);
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}
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return OK;
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}
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#endif
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void PointerCoords::tooManyAxes(int axis) {
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LOGW("Could not set value for axis %d because the PointerCoords structure is full and "
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"cannot contain more than %d axis values.", axis, int(MAX_AXES));
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}
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// --- MotionEvent ---
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void MotionEvent::initialize(
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int32_t deviceId,
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int32_t source,
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int32_t action,
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int32_t flags,
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int32_t edgeFlags,
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int32_t metaState,
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float xOffset,
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float yOffset,
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float xPrecision,
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float yPrecision,
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nsecs_t downTime,
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nsecs_t eventTime,
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size_t pointerCount,
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const int32_t* pointerIds,
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const PointerCoords* pointerCoords) {
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InputEvent::initialize(deviceId, source);
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mAction = action;
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mFlags = flags;
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mEdgeFlags = edgeFlags;
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mMetaState = metaState;
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mXOffset = xOffset;
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mYOffset = yOffset;
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mXPrecision = xPrecision;
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mYPrecision = yPrecision;
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mDownTime = downTime;
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mPointerIds.clear();
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mPointerIds.appendArray(pointerIds, pointerCount);
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mSampleEventTimes.clear();
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mSamplePointerCoords.clear();
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addSample(eventTime, pointerCoords);
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}
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void MotionEvent::copyFrom(const MotionEvent* other, bool keepHistory) {
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InputEvent::initialize(other->mDeviceId, other->mSource);
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mAction = other->mAction;
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mFlags = other->mFlags;
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mEdgeFlags = other->mEdgeFlags;
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mMetaState = other->mMetaState;
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mXOffset = other->mXOffset;
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mYOffset = other->mYOffset;
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mXPrecision = other->mXPrecision;
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mYPrecision = other->mYPrecision;
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mDownTime = other->mDownTime;
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mPointerIds = other->mPointerIds;
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if (keepHistory) {
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mSampleEventTimes = other->mSampleEventTimes;
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mSamplePointerCoords = other->mSamplePointerCoords;
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} else {
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mSampleEventTimes.clear();
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mSampleEventTimes.push(other->getEventTime());
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mSamplePointerCoords.clear();
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size_t pointerCount = other->getPointerCount();
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size_t historySize = other->getHistorySize();
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mSamplePointerCoords.appendArray(other->mSamplePointerCoords.array()
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+ (historySize * pointerCount), pointerCount);
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}
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}
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void MotionEvent::addSample(
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int64_t eventTime,
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const PointerCoords* pointerCoords) {
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mSampleEventTimes.push(eventTime);
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mSamplePointerCoords.appendArray(pointerCoords, getPointerCount());
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}
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const PointerCoords* MotionEvent::getRawPointerCoords(size_t pointerIndex) const {
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return &mSamplePointerCoords[getHistorySize() * getPointerCount() + pointerIndex];
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}
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float MotionEvent::getRawAxisValue(int32_t axis, size_t pointerIndex) const {
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return getRawPointerCoords(pointerIndex)->getAxisValue(axis);
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}
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float MotionEvent::getAxisValue(int32_t axis, size_t pointerIndex) const {
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float value = getRawPointerCoords(pointerIndex)->getAxisValue(axis);
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switch (axis) {
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case AMOTION_EVENT_AXIS_X:
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value += mXOffset;
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break;
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case AMOTION_EVENT_AXIS_Y:
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value += mYOffset;
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break;
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}
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return value;
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}
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const PointerCoords* MotionEvent::getHistoricalRawPointerCoords(
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size_t pointerIndex, size_t historicalIndex) const {
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return &mSamplePointerCoords[historicalIndex * getPointerCount() + pointerIndex];
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}
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float MotionEvent::getHistoricalRawAxisValue(int32_t axis, size_t pointerIndex,
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size_t historicalIndex) const {
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return getHistoricalRawPointerCoords(pointerIndex, historicalIndex)->getAxisValue(axis);
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}
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float MotionEvent::getHistoricalAxisValue(int32_t axis, size_t pointerIndex,
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size_t historicalIndex) const {
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float value = getHistoricalRawPointerCoords(pointerIndex, historicalIndex)->getAxisValue(axis);
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switch (axis) {
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case AMOTION_EVENT_AXIS_X:
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value += mXOffset;
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break;
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case AMOTION_EVENT_AXIS_Y:
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value += mYOffset;
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break;
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}
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return value;
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}
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void MotionEvent::offsetLocation(float xOffset, float yOffset) {
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mXOffset += xOffset;
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mYOffset += yOffset;
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}
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static inline void scaleAxisValue(PointerCoords& c, int axis, float scaleFactor) {
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float* value = c.editAxisValue(axis);
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if (value) {
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*value *= scaleFactor;
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}
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}
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void MotionEvent::scale(float scaleFactor) {
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mXOffset *= scaleFactor;
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mYOffset *= scaleFactor;
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mXPrecision *= scaleFactor;
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mYPrecision *= scaleFactor;
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size_t numSamples = mSamplePointerCoords.size();
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for (size_t i = 0; i < numSamples; i++) {
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PointerCoords& c = mSamplePointerCoords.editItemAt(i);
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// No need to scale pressure or size since they are normalized.
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// No need to scale orientation since it is meaningless to do so.
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scaleAxisValue(c, AMOTION_EVENT_AXIS_X, scaleFactor);
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scaleAxisValue(c, AMOTION_EVENT_AXIS_Y, scaleFactor);
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scaleAxisValue(c, AMOTION_EVENT_AXIS_TOUCH_MAJOR, scaleFactor);
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scaleAxisValue(c, AMOTION_EVENT_AXIS_TOUCH_MINOR, scaleFactor);
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scaleAxisValue(c, AMOTION_EVENT_AXIS_TOOL_MAJOR, scaleFactor);
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scaleAxisValue(c, AMOTION_EVENT_AXIS_TOOL_MINOR, scaleFactor);
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}
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}
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#ifdef HAVE_ANDROID_OS
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static inline float transformAngle(const SkMatrix* matrix, float angleRadians) {
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// Construct and transform a vector oriented at the specified clockwise angle from vertical.
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// Coordinate system: down is increasing Y, right is increasing X.
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SkPoint vector;
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vector.fX = SkFloatToScalar(sinf(angleRadians));
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vector.fY = SkFloatToScalar(-cosf(angleRadians));
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matrix->mapVectors(& vector, 1);
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// Derive the transformed vector's clockwise angle from vertical.
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float result = atan2f(SkScalarToFloat(vector.fX), SkScalarToFloat(-vector.fY));
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if (result < - M_PI_2) {
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result += M_PI;
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} else if (result > M_PI_2) {
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result -= M_PI;
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}
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return result;
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}
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void MotionEvent::transform(const SkMatrix* matrix) {
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float oldXOffset = mXOffset;
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float oldYOffset = mYOffset;
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// The tricky part of this implementation is to preserve the value of
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// rawX and rawY. So we apply the transformation to the first point
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// then derive an appropriate new X/Y offset that will preserve rawX and rawY.
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SkPoint point;
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float rawX = getRawX(0);
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float rawY = getRawY(0);
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matrix->mapXY(SkFloatToScalar(rawX + oldXOffset), SkFloatToScalar(rawY + oldYOffset),
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& point);
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float newX = SkScalarToFloat(point.fX);
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float newY = SkScalarToFloat(point.fY);
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float newXOffset = newX - rawX;
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float newYOffset = newY - rawY;
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mXOffset = newXOffset;
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mYOffset = newYOffset;
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// Apply the transformation to all samples.
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size_t numSamples = mSamplePointerCoords.size();
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for (size_t i = 0; i < numSamples; i++) {
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PointerCoords& c = mSamplePointerCoords.editItemAt(i);
|
|
float* xPtr = c.editAxisValue(AMOTION_EVENT_AXIS_X);
|
|
float* yPtr = c.editAxisValue(AMOTION_EVENT_AXIS_Y);
|
|
if (xPtr && yPtr) {
|
|
float x = *xPtr + oldXOffset;
|
|
float y = *yPtr + oldYOffset;
|
|
matrix->mapXY(SkFloatToScalar(x), SkFloatToScalar(y), & point);
|
|
*xPtr = SkScalarToFloat(point.fX) - newXOffset;
|
|
*yPtr = SkScalarToFloat(point.fY) - newYOffset;
|
|
}
|
|
|
|
float* orientationPtr = c.editAxisValue(AMOTION_EVENT_AXIS_ORIENTATION);
|
|
if (orientationPtr) {
|
|
*orientationPtr = transformAngle(matrix, *orientationPtr);
|
|
}
|
|
}
|
|
}
|
|
|
|
status_t MotionEvent::readFromParcel(Parcel* parcel) {
|
|
size_t pointerCount = parcel->readInt32();
|
|
size_t sampleCount = parcel->readInt32();
|
|
if (pointerCount == 0 || pointerCount > MAX_POINTERS || sampleCount == 0) {
|
|
return BAD_VALUE;
|
|
}
|
|
|
|
mDeviceId = parcel->readInt32();
|
|
mSource = parcel->readInt32();
|
|
mAction = parcel->readInt32();
|
|
mFlags = parcel->readInt32();
|
|
mEdgeFlags = parcel->readInt32();
|
|
mMetaState = parcel->readInt32();
|
|
mXOffset = parcel->readFloat();
|
|
mYOffset = parcel->readFloat();
|
|
mXPrecision = parcel->readFloat();
|
|
mYPrecision = parcel->readFloat();
|
|
mDownTime = parcel->readInt64();
|
|
|
|
mPointerIds.clear();
|
|
mPointerIds.setCapacity(pointerCount);
|
|
mSampleEventTimes.clear();
|
|
mSampleEventTimes.setCapacity(sampleCount);
|
|
mSamplePointerCoords.clear();
|
|
mSamplePointerCoords.setCapacity(sampleCount * pointerCount);
|
|
|
|
for (size_t i = 0; i < pointerCount; i++) {
|
|
mPointerIds.push(parcel->readInt32());
|
|
}
|
|
|
|
while (sampleCount-- > 0) {
|
|
mSampleEventTimes.push(parcel->readInt64());
|
|
for (size_t i = 0; i < pointerCount; i++) {
|
|
mSamplePointerCoords.push();
|
|
status_t status = mSamplePointerCoords.editTop().readFromParcel(parcel);
|
|
if (status) {
|
|
return status;
|
|
}
|
|
}
|
|
}
|
|
return OK;
|
|
}
|
|
|
|
status_t MotionEvent::writeToParcel(Parcel* parcel) const {
|
|
size_t pointerCount = mPointerIds.size();
|
|
size_t sampleCount = mSampleEventTimes.size();
|
|
|
|
parcel->writeInt32(pointerCount);
|
|
parcel->writeInt32(sampleCount);
|
|
|
|
parcel->writeInt32(mDeviceId);
|
|
parcel->writeInt32(mSource);
|
|
parcel->writeInt32(mAction);
|
|
parcel->writeInt32(mFlags);
|
|
parcel->writeInt32(mEdgeFlags);
|
|
parcel->writeInt32(mMetaState);
|
|
parcel->writeFloat(mXOffset);
|
|
parcel->writeFloat(mYOffset);
|
|
parcel->writeFloat(mXPrecision);
|
|
parcel->writeFloat(mYPrecision);
|
|
parcel->writeInt64(mDownTime);
|
|
|
|
for (size_t i = 0; i < pointerCount; i++) {
|
|
parcel->writeInt32(mPointerIds.itemAt(i));
|
|
}
|
|
|
|
const PointerCoords* pc = mSamplePointerCoords.array();
|
|
for (size_t h = 0; h < sampleCount; h++) {
|
|
parcel->writeInt64(mSampleEventTimes.itemAt(h));
|
|
for (size_t i = 0; i < pointerCount; i++) {
|
|
status_t status = (pc++)->writeToParcel(parcel);
|
|
if (status) {
|
|
return status;
|
|
}
|
|
}
|
|
}
|
|
return OK;
|
|
}
|
|
#endif
|
|
|
|
bool MotionEvent::isTouchEvent(int32_t source, int32_t action) {
|
|
if (source & AINPUT_SOURCE_CLASS_POINTER) {
|
|
// Specifically excludes HOVER_MOVE and SCROLL.
|
|
switch (action & AMOTION_EVENT_ACTION_MASK) {
|
|
case AMOTION_EVENT_ACTION_DOWN:
|
|
case AMOTION_EVENT_ACTION_MOVE:
|
|
case AMOTION_EVENT_ACTION_UP:
|
|
case AMOTION_EVENT_ACTION_POINTER_DOWN:
|
|
case AMOTION_EVENT_ACTION_POINTER_UP:
|
|
case AMOTION_EVENT_ACTION_CANCEL:
|
|
case AMOTION_EVENT_ACTION_OUTSIDE:
|
|
return true;
|
|
}
|
|
}
|
|
return false;
|
|
}
|
|
|
|
|
|
// --- InputDeviceInfo ---
|
|
|
|
InputDeviceInfo::InputDeviceInfo() {
|
|
initialize(-1, String8("uninitialized device info"));
|
|
}
|
|
|
|
InputDeviceInfo::InputDeviceInfo(const InputDeviceInfo& other) :
|
|
mId(other.mId), mName(other.mName), mSources(other.mSources),
|
|
mKeyboardType(other.mKeyboardType),
|
|
mMotionRanges(other.mMotionRanges) {
|
|
}
|
|
|
|
InputDeviceInfo::~InputDeviceInfo() {
|
|
}
|
|
|
|
void InputDeviceInfo::initialize(int32_t id, const String8& name) {
|
|
mId = id;
|
|
mName = name;
|
|
mSources = 0;
|
|
mKeyboardType = AINPUT_KEYBOARD_TYPE_NONE;
|
|
mMotionRanges.clear();
|
|
}
|
|
|
|
const InputDeviceInfo::MotionRange* InputDeviceInfo::getMotionRange(int32_t axis) const {
|
|
ssize_t index = mMotionRanges.indexOfKey(axis);
|
|
return index >= 0 ? & mMotionRanges.valueAt(index) : NULL;
|
|
}
|
|
|
|
void InputDeviceInfo::addSource(uint32_t source) {
|
|
mSources |= source;
|
|
}
|
|
|
|
void InputDeviceInfo::addMotionRange(int32_t axis, float min, float max,
|
|
float flat, float fuzz) {
|
|
MotionRange range = { min, max, flat, fuzz };
|
|
addMotionRange(axis, range);
|
|
}
|
|
|
|
void InputDeviceInfo::addMotionRange(int32_t axis, const MotionRange& range) {
|
|
mMotionRanges.add(axis, range);
|
|
}
|
|
|
|
} // namespace android
|