/* * Copyright (C) 2014 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.systemui.statusbar.phone; import android.content.Context; import android.os.SystemProperties; import android.os.UserHandle; import android.text.TextUtils; import android.util.Log; import android.util.MathUtils; import android.util.SparseBooleanArray; import com.android.internal.hardware.AmbientDisplayConfiguration; import com.android.systemui.R; import java.io.PrintWriter; import java.util.Arrays; import java.util.regex.Matcher; import java.util.regex.Pattern; public class DozeParameters { private static final int MAX_DURATION = 60 * 1000; private final Context mContext; private static IntInOutMatcher sPickupSubtypePerformsProxMatcher; public DozeParameters(Context context) { mContext = context; } public void dump(PrintWriter pw) { pw.println(" DozeParameters:"); pw.print(" getDisplayStateSupported(): "); pw.println(getDisplayStateSupported()); pw.print(" getPulseDuration(pickup=false): "); pw.println(getPulseDuration(false)); pw.print(" getPulseDuration(pickup=true): "); pw.println(getPulseDuration(true)); pw.print(" getPulseInDuration(pickup=false): "); pw.println(getPulseInDuration(false)); pw.print(" getPulseInDuration(pickup=true): "); pw.println(getPulseInDuration(true)); pw.print(" getPulseInVisibleDuration(): "); pw.println(getPulseVisibleDuration()); pw.print(" getPulseOutDuration(): "); pw.println(getPulseOutDuration()); pw.print(" getPulseOnSigMotion(): "); pw.println(getPulseOnSigMotion()); pw.print(" getVibrateOnSigMotion(): "); pw.println(getVibrateOnSigMotion()); pw.print(" getVibrateOnPickup(): "); pw.println(getVibrateOnPickup()); pw.print(" getProxCheckBeforePulse(): "); pw.println(getProxCheckBeforePulse()); pw.print(" getPickupVibrationThreshold(): "); pw.println(getPickupVibrationThreshold()); pw.print(" getPickupSubtypePerformsProxCheck(): ");pw.println( dumpPickupSubtypePerformsProxCheck()); } private String dumpPickupSubtypePerformsProxCheck() { // Refresh sPickupSubtypePerformsProxMatcher getPickupSubtypePerformsProxCheck(0); if (sPickupSubtypePerformsProxMatcher == null) { return "fallback: " + mContext.getResources().getBoolean( R.bool.doze_pickup_performs_proximity_check); } else { return "spec: " + sPickupSubtypePerformsProxMatcher.mSpec; } } public boolean getDisplayStateSupported() { return getBoolean("doze.display.supported", R.bool.doze_display_state_supported); } public int getPulseDuration(boolean pickup) { return getPulseInDuration(pickup) + getPulseVisibleDuration() + getPulseOutDuration(); } public int getPulseInDuration(boolean pickupOrDoubleTap) { return pickupOrDoubleTap ? getInt("doze.pulse.duration.in.pickup", R.integer.doze_pulse_duration_in_pickup) : getInt("doze.pulse.duration.in", R.integer.doze_pulse_duration_in); } public int getPulseVisibleDuration() { return getInt("doze.pulse.duration.visible", R.integer.doze_pulse_duration_visible); } public int getPulseOutDuration() { return getInt("doze.pulse.duration.out", R.integer.doze_pulse_duration_out); } public boolean getPulseOnSigMotion() { return getBoolean("doze.pulse.sigmotion", R.bool.doze_pulse_on_significant_motion); } public boolean getVibrateOnSigMotion() { return SystemProperties.getBoolean("doze.vibrate.sigmotion", false); } public boolean getVibrateOnPickup() { return SystemProperties.getBoolean("doze.vibrate.pickup", false); } public boolean getProxCheckBeforePulse() { return getBoolean("doze.pulse.proxcheck", R.bool.doze_proximity_check_before_pulse); } public int getPickupVibrationThreshold() { return getInt("doze.pickup.vibration.threshold", R.integer.doze_pickup_vibration_threshold); } private boolean getBoolean(String propName, int resId) { return SystemProperties.getBoolean(propName, mContext.getResources().getBoolean(resId)); } private int getInt(String propName, int resId) { int value = SystemProperties.getInt(propName, mContext.getResources().getInteger(resId)); return MathUtils.constrain(value, 0, MAX_DURATION); } private String getString(String propName, int resId) { return SystemProperties.get(propName, mContext.getString(resId)); } public boolean getPickupSubtypePerformsProxCheck(int subType) { String spec = getString("doze.pickup.proxcheck", R.string.doze_pickup_subtype_performs_proximity_check); if (TextUtils.isEmpty(spec)) { // Fall back to non-subtype based property. return mContext.getResources().getBoolean(R.bool.doze_pickup_performs_proximity_check); } if (sPickupSubtypePerformsProxMatcher == null || !TextUtils.equals(spec, sPickupSubtypePerformsProxMatcher.mSpec)) { sPickupSubtypePerformsProxMatcher = new IntInOutMatcher(spec); } return sPickupSubtypePerformsProxMatcher.isIn(subType); } /** * Parses a spec of the form `1,2,3,!5,*`. The resulting object will match numbers that are * listed, will not match numbers that are listed with a ! prefix, and will match / not match * unlisted numbers depending on whether * or !* is present. * * * -> match any numbers that are not explicitly listed * !* -> don't match any numbers that are not explicitly listed * 2 -> match 2 * !3 -> don't match 3 * * It is illegal to specify: * - an empty spec * - a spec containing that are empty, or a lone ! * - a spec for anything other than numbers or * * - multiple terms for the same number / multiple *s */ public static class IntInOutMatcher { private static final String WILDCARD = "*"; private static final char OUT_PREFIX = '!'; private final SparseBooleanArray mIsIn; private final boolean mDefaultIsIn; final String mSpec; public IntInOutMatcher(String spec) { if (TextUtils.isEmpty(spec)) { throw new IllegalArgumentException("Spec must not be empty"); } boolean defaultIsIn = false; boolean foundWildcard = false; mSpec = spec; mIsIn = new SparseBooleanArray(); for (String itemPrefixed : spec.split(",", -1)) { if (itemPrefixed.length() == 0) { throw new IllegalArgumentException( "Illegal spec, must not have zero-length items: `" + spec + "`"); } boolean isIn = itemPrefixed.charAt(0) != OUT_PREFIX; String item = isIn ? itemPrefixed : itemPrefixed.substring(1); if (itemPrefixed.length() == 0) { throw new IllegalArgumentException( "Illegal spec, must not have zero-length items: `" + spec + "`"); } if (WILDCARD.equals(item)) { if (foundWildcard) { throw new IllegalArgumentException("Illegal spec, `" + WILDCARD + "` must not appear multiple times in `" + spec + "`"); } defaultIsIn = isIn; foundWildcard = true; } else { int key = Integer.parseInt(item); if (mIsIn.indexOfKey(key) >= 0) { throw new IllegalArgumentException("Illegal spec, `" + key + "` must not appear multiple times in `" + spec + "`"); } mIsIn.put(key, isIn); } } if (!foundWildcard) { throw new IllegalArgumentException("Illegal spec, must specify either * or !*"); } mDefaultIsIn = defaultIsIn; } public boolean isIn(int value) { return (mIsIn.get(value, mDefaultIsIn)); } } }