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A library jar that provides APIs for Applications written for the Google Android Platform.
/*
* 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 android.media;
import android.util.Log;
import android.util.Pair;
import android.util.Range;
import android.util.Rational;
import android.util.Size;
import java.util.Arrays;
import java.util.Comparator;
import java.util.Vector;
// package private
class Utils {
private static final String TAG = "Utils";
/**
* Sorts distinct (non-intersecting) range array in ascending order.
* @throws java.lang.IllegalArgumentException if ranges are not distinct
*/
public static > void sortDistinctRanges(Range[] ranges) {
Arrays.sort(ranges, new Comparator>() {
@Override
public int compare(Range lhs, Range rhs) {
if (lhs.getUpper().compareTo(rhs.getLower()) < 0) {
return -1;
} else if (lhs.getLower().compareTo(rhs.getUpper()) > 0) {
return 1;
}
throw new IllegalArgumentException(
"sample rate ranges must be distinct (" + lhs + " and " + rhs + ")");
}
});
}
/**
* Returns the intersection of two sets of non-intersecting ranges
* @param one a sorted set of non-intersecting ranges in ascending order
* @param another another sorted set of non-intersecting ranges in ascending order
* @return the intersection of the two sets, sorted in ascending order
*/
public static >
Range[] intersectSortedDistinctRanges(Range[] one, Range[] another) {
int ix = 0;
Vector> result = new Vector>();
for (Range range: another) {
while (ix < one.length &&
one[ix].getUpper().compareTo(range.getLower()) < 0) {
++ix;
}
while (ix < one.length &&
one[ix].getUpper().compareTo(range.getUpper()) < 0) {
result.add(range.intersect(one[ix]));
++ix;
}
if (ix == one.length) {
break;
}
if (one[ix].getLower().compareTo(range.getUpper()) <= 0) {
result.add(range.intersect(one[ix]));
}
}
return result.toArray(new Range[result.size()]);
}
/**
* Returns the index of the range that contains a value in a sorted array of distinct ranges.
* @param ranges a sorted array of non-intersecting ranges in ascending order
* @param value the value to search for
* @return if the value is in one of the ranges, it returns the index of that range. Otherwise,
* the return value is {@code (-1-index)} for the {@code index} of the range that is
* immediately following {@code value}.
*/
public static >
int binarySearchDistinctRanges(Range[] ranges, T value) {
return Arrays.binarySearch(ranges, Range.create(value, value),
new Comparator>() {
@Override
public int compare(Range lhs, Range rhs) {
if (lhs.getUpper().compareTo(rhs.getLower()) < 0) {
return -1;
} else if (lhs.getLower().compareTo(rhs.getUpper()) > 0) {
return 1;
}
return 0;
}
});
}
/**
* Returns greatest common divisor
*/
static int gcd(int a, int b) {
if (a == 0 && b == 0) {
return 1;
}
if (b < 0) {
b = -b;
}
if (a < 0) {
a = -a;
}
while (a != 0) {
int c = b % a;
b = a;
a = c;
}
return b;
}
/** Returns the equivalent factored range {@code newrange}, where for every
* {@code e}: {@code newrange.contains(e)} implies that {@code range.contains(e * factor)},
* and {@code !newrange.contains(e)} implies that {@code !range.contains(e * factor)}.
*/
static RangefactorRange(Range range, int factor) {
if (factor == 1) {
return range;
}
return Range.create(divUp(range.getLower(), factor), range.getUpper() / factor);
}
/** Returns the equivalent factored range {@code newrange}, where for every
* {@code e}: {@code newrange.contains(e)} implies that {@code range.contains(e * factor)},
* and {@code !newrange.contains(e)} implies that {@code !range.contains(e * factor)}.
*/
static RangefactorRange(Range range, long factor) {
if (factor == 1) {
return range;
}
return Range.create(divUp(range.getLower(), factor), range.getUpper() / factor);
}
private static Rational scaleRatio(Rational ratio, int num, int den) {
int common = gcd(num, den);
num /= common;
den /= common;
return new Rational(
(int)(ratio.getNumerator() * (double)num), // saturate to int
(int)(ratio.getDenominator() * (double)den)); // saturate to int
}
static Range scaleRange(Range range, int num, int den) {
if (num == den) {
return range;
}
return Range.create(
scaleRatio(range.getLower(), num, den),
scaleRatio(range.getUpper(), num, den));
}
static Range alignRange(Range range, int align) {
return range.intersect(
divUp(range.getLower(), align) * align,
(range.getUpper() / align) * align);
}
static int divUp(int num, int den) {
return (num + den - 1) / den;
}
static long divUp(long num, long den) {
return (num + den - 1) / den;
}
/**
* Returns least common multiple
*/
private static long lcm(int a, int b) {
if (a == 0 || b == 0) {
throw new IllegalArgumentException("lce is not defined for zero arguments");
}
return (long)a * b / gcd(a, b);
}
static Range intRangeFor(double v) {
return Range.create((int)v, (int)Math.ceil(v));
}
static Range longRangeFor(double v) {
return Range.create((long)v, (long)Math.ceil(v));
}
static Size parseSize(Object o, Size fallback) {
try {
return Size.parseSize((String) o);
} catch (ClassCastException e) {
} catch (NumberFormatException e) {
} catch (NullPointerException e) {
return fallback;
}
Log.w(TAG, "could not parse size '" + o + "'");
return fallback;
}
static int parseIntSafely(Object o, int fallback) {
if (o == null) {
return fallback;
}
try {
String s = (String)o;
return Integer.parseInt(s);
} catch (ClassCastException e) {
} catch (NumberFormatException e) {
} catch (NullPointerException e) {
return fallback;
}
Log.w(TAG, "could not parse integer '" + o + "'");
return fallback;
}
static Range parseIntRange(Object o, Range fallback) {
try {
String s = (String)o;
int ix = s.indexOf('-');
if (ix >= 0) {
return Range.create(
Integer.parseInt(s.substring(0, ix), 10),
Integer.parseInt(s.substring(ix + 1), 10));
}
int value = Integer.parseInt(s);
return Range.create(value, value);
} catch (ClassCastException e) {
} catch (NumberFormatException e) {
} catch (NullPointerException e) {
return fallback;
} catch (IllegalArgumentException e) {
}
Log.w(TAG, "could not parse integer range '" + o + "'");
return fallback;
}
static Range parseLongRange(Object o, Range fallback) {
try {
String s = (String)o;
int ix = s.indexOf('-');
if (ix >= 0) {
return Range.create(
Long.parseLong(s.substring(0, ix), 10),
Long.parseLong(s.substring(ix + 1), 10));
}
long value = Long.parseLong(s);
return Range.create(value, value);
} catch (ClassCastException e) {
} catch (NumberFormatException e) {
} catch (NullPointerException e) {
return fallback;
} catch (IllegalArgumentException e) {
}
Log.w(TAG, "could not parse long range '" + o + "'");
return fallback;
}
static Range parseRationalRange(Object o, Range fallback) {
try {
String s = (String)o;
int ix = s.indexOf('-');
if (ix >= 0) {
return Range.create(
Rational.parseRational(s.substring(0, ix)),
Rational.parseRational(s.substring(ix + 1)));
}
Rational value = Rational.parseRational(s);
return Range.create(value, value);
} catch (ClassCastException e) {
} catch (NumberFormatException e) {
} catch (NullPointerException e) {
return fallback;
} catch (IllegalArgumentException e) {
}
Log.w(TAG, "could not parse rational range '" + o + "'");
return fallback;
}
static Pair parseSizeRange(Object o) {
try {
String s = (String)o;
int ix = s.indexOf('-');
if (ix >= 0) {
return Pair.create(
Size.parseSize(s.substring(0, ix)),
Size.parseSize(s.substring(ix + 1)));
}
Size value = Size.parseSize(s);
return Pair.create(value, value);
} catch (ClassCastException e) {
} catch (NumberFormatException e) {
} catch (NullPointerException e) {
return null;
} catch (IllegalArgumentException e) {
}
Log.w(TAG, "could not parse size range '" + o + "'");
return null;
}
}