// Protocol Buffers - Google's data interchange format
// Copyright 2008 Google Inc. All rights reserved.
// https://developers.google.com/protocol-buffers/
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package com.google.protobuf;
import java.io.UnsupportedEncodingException;
import java.util.Iterator;
/**
* This class tests {@link RopeByteString#substring(int, int)} by inheriting the tests from
* {@link LiteralByteStringTest}. Only a couple of methods are overridden.
*
* @author carlanton@google.com (Carl Haverl)
*/
public class RopeByteStringSubstringTest extends LiteralByteStringTest {
@Override
protected void setUp() throws Exception {
classUnderTest = "RopeByteString";
byte[] sourceBytes = ByteStringTest.getTestBytes(22341, 22337766L);
Iterator<ByteString> iter = ByteStringTest.makeConcretePieces(sourceBytes).iterator();
ByteString sourceString = iter.next();
while (iter.hasNext()) {
sourceString = sourceString.concat(iter.next());
}
int from = 1130;
int to = sourceBytes.length - 5555;
stringUnderTest = sourceString.substring(from, to);
referenceBytes = new byte[to - from];
System.arraycopy(sourceBytes, from, referenceBytes, 0, to - from);
expectedHashCode = -1259260680;
}
@Override
public void testGetTreeDepth() {
assertEquals(classUnderTest + " must have the expected tree depth",
3, stringUnderTest.getTreeDepth());
}
@Override
public void testToString() throws UnsupportedEncodingException {
String sourceString = "I love unicode \u1234\u5678 characters";
ByteString sourceByteString = ByteString.copyFromUtf8(sourceString);
int copies = 250;
// By building the RopeByteString by concatenating, this is actually a fairly strenuous test.
StringBuilder builder = new StringBuilder(copies * sourceString.length());
ByteString unicode = ByteString.EMPTY;
for (int i = 0; i < copies; ++i) {
builder.append(sourceString);
unicode = RopeByteString.concatenate(unicode, sourceByteString);
}
String testString = builder.toString();
// Do the substring part
testString = testString.substring(2, testString.length() - 6);
unicode = unicode.substring(2, unicode.size() - 6);
assertEquals(classUnderTest + " from string must have the expected type",
classUnderTest, getActualClassName(unicode));
String roundTripString = unicode.toString(UTF_8);
assertEquals(classUnderTest + " unicode bytes must match",
testString, roundTripString);
ByteString flatString = ByteString.copyFromUtf8(testString);
assertEquals(classUnderTest + " string must equal the flat string", flatString, unicode);
assertEquals(classUnderTest + " string must must have same hashCode as the flat string",
flatString.hashCode(), unicode.hashCode());
}
@Override
public void testCharsetToString() {
String sourceString = "I love unicode \u1234\u5678 characters";
ByteString sourceByteString = ByteString.copyFromUtf8(sourceString);
int copies = 250;
// By building the RopeByteString by concatenating, this is actually a fairly strenuous test.
StringBuilder builder = new StringBuilder(copies * sourceString.length());
ByteString unicode = ByteString.EMPTY;
for (int i = 0; i < copies; ++i) {
builder.append(sourceString);
unicode = RopeByteString.concatenate(unicode, sourceByteString);
}
String testString = builder.toString();
// Do the substring part
testString = testString.substring(2, testString.length() - 6);
unicode = unicode.substring(2, unicode.size() - 6);
assertEquals(classUnderTest + " from string must have the expected type",
classUnderTest, getActualClassName(unicode));
String roundTripString = unicode.toString(Internal.UTF_8);
assertEquals(classUnderTest + " unicode bytes must match",
testString, roundTripString);
ByteString flatString = ByteString.copyFromUtf8(testString);
assertEquals(classUnderTest + " string must equal the flat string", flatString, unicode);
assertEquals(classUnderTest + " string must must have same hashCode as the flat string",
flatString.hashCode(), unicode.hashCode());
}
}