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src.test.main.TestStringGeneration Maven / Gradle / Ivy
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Jackson is a high-performance JSON processor (parser, generator)
package main;
import java.io.*;
import org.codehaus.jackson.*;
import java.util.Random;
/**
* Set of basic unit tests for verifying that the string
* generation, including character escaping, works as expected.
*/
public class TestStringGeneration
extends BaseTest
{
final static String[] SAMPLES = new String[] {
"\"test\"",
"\n", "\\n", "\r\n", "a\\b", "tab:\nok?",
"a\tb\tc\n\fdef\t \tg\"\"\"h\"\\ijklmn\b",
"\"\"\"", "\\r)'\"",
"Longer text & other stuff:\twith some\r\n\r\n random linefeeds etc added in to cause some \"special\" handling \\\\ to occur...\n"
};
public void testBasicEscaping()
throws Exception
{
doTestBasicEscaping(false);
doTestBasicEscaping(true);
}
public void testLongerRandomSingleChunk()
throws Exception
{
/* Let's first generate 100k of pseudo-random characters, favoring
* 7-bit ascii range
*/
for (int round = 0; round < 80; ++round) {
String content = generateRandom(75000+round);
doTestLongerRandom(content, false);
doTestLongerRandom(content, true);
}
}
public void testLongerRandomMultiChunk()
throws Exception
{
/* Let's first generate 100k of pseudo-random characters, favoring
* 7-bit ascii range
*/
for (int round = 0; round < 70; ++round) {
String content = generateRandom(73000+round);
doTestLongerRandomMulti(content, false, round);
doTestLongerRandomMulti(content, true, round);
}
}
/*
///////////////////////////////////////////////////////////////
// Internal methods
///////////////////////////////////////////////////////////////
*/
private String generateRandom(int len)
{
StringBuilder sb = new StringBuilder(len+1000); // pad for surrogates
Random r = new Random(len);
for (int i = 0; i < len; ++i) {
if (r.nextBoolean()) { // non-ascii
int value = r.nextInt() & 0xFFFF;
// Otherwise easy, except that need to ensure that
// surrogates are properly paired: and, also
// their values do not exceed 0x10FFFF
if (value >= 0xD800 && value <= 0xDFFF) {
// Let's discard first value, then, and produce valid pair
int fullValue = (r.nextInt() & 0xFFFFF);
sb.append((char) (0xD800 + (fullValue >> 10)));
value = 0xDC00 + (fullValue & 0x3FF);
}
sb.append((char) value);
} else { // ascii
sb.append((char) (r.nextInt() & 0x7F));
}
}
return sb.toString();
}
private void doTestBasicEscaping(boolean charArray)
throws Exception
{
for (int i = 0; i < SAMPLES.length; ++i) {
String VALUE = SAMPLES[i];
StringWriter sw = new StringWriter();
JsonGenerator gen = new JsonFactory().createJsonGenerator(sw);
gen.writeStartArray();
if (charArray) {
char[] buf = new char[VALUE.length() + i];
VALUE.getChars(0, VALUE.length(), buf, i);
gen.writeString(buf, i, VALUE.length());
} else {
gen.writeString(VALUE);
}
gen.writeEndArray();
gen.close();
String docStr = sw.toString();
JsonParser jp = createParserUsingReader(docStr);
assertEquals(JsonToken.START_ARRAY, jp.nextToken());
JsonToken t = jp.nextToken();
assertEquals(JsonToken.VALUE_STRING, t);
assertEquals(VALUE, jp.getText());
assertEquals(JsonToken.END_ARRAY, jp.nextToken());
assertEquals(null, jp.nextToken());
jp.close();
}
}
private void doTestLongerRandom(String text, boolean charArray)
throws Exception
{
ByteArrayOutputStream bow = new ByteArrayOutputStream(text.length());
JsonGenerator gen = new JsonFactory().createJsonGenerator(bow, JsonEncoding.UTF8);
gen.writeStartArray();
if (charArray) {
char[] buf = new char[text.length()];
text.getChars(0, text.length(), buf, 0);
gen.writeString(buf, 0, text.length());
} else {
gen.writeString(text);
}
gen.writeEndArray();
gen.close();
byte[] docData = bow.toByteArray();
JsonParser jp = new JsonFactory().createJsonParser(new ByteArrayInputStream(docData));
assertEquals(JsonToken.START_ARRAY, jp.nextToken());
JsonToken t = jp.nextToken();
assertEquals(JsonToken.VALUE_STRING, t);
String act = jp.getText();
if (!text.equals(act)) {
if (text.length() != act.length()) {
fail("Expected string length "+text.length()+", actual "+act.length());
}
int i = 0;
for (int len = text.length(); i < len; ++i) {
if (text.charAt(i) != act.charAt(i)) {
break;
}
}
fail("Strings differ at position #"+i+" (len "+text.length()+"): expected char 0x"+Integer.toHexString(text.charAt(i))+", actual 0x"+Integer.toHexString(act.charAt(i)));
}
assertEquals(JsonToken.END_ARRAY, jp.nextToken());
assertEquals(null, jp.nextToken());
jp.close();
}
private void doTestLongerRandomMulti(String text, boolean charArray, int round)
throws Exception
{
ByteArrayOutputStream bow = new ByteArrayOutputStream(text.length());
JsonGenerator gen = new JsonFactory().createJsonGenerator(bow, JsonEncoding.UTF8);
gen.writeStartArray();
gen.writeString(text);
gen.writeEndArray();
gen.close();
gen = new JsonFactory().createJsonGenerator(bow, JsonEncoding.UTF8);
gen.writeStartArray();
gen.writeStartArray();
Random rnd = new Random(text.length());
int offset = 0;
while (offset < text.length()) {
int shift = 1 + ((rnd.nextInt() & 0xFFFFF) % 12); // 1 - 12
int len = (1 << shift) + shift; // up to 4k
if ((offset + len) >= text.length()) {
len = text.length() - offset;
} else {
// Need to avoid splitting surrogates though
char c = text.charAt(offset+len-1);
if (c >= 0xD800 && c < 0xDC00) {
++len;
}
}
if (charArray) {
char[] buf = new char[len];
text.getChars(offset, offset+len, buf, 0);
gen.writeString(buf, 0, len);
} else {
gen.writeString(text.substring(offset, offset+len));
}
offset += len;
}
gen.writeEndArray();
gen.close();
byte[] docData = bow.toByteArray();
JsonParser jp = new JsonFactory().createJsonParser(new ByteArrayInputStream(docData));
assertEquals(JsonToken.START_ARRAY, jp.nextToken());
offset = 0;
while (jp.nextToken() == JsonToken.VALUE_STRING) {
// Let's verify, piece by piece
String act = jp.getText();
String exp = text.substring(offset, offset+act.length());
if (!act.equals(exp)) {
fail("String segment ["+offset+" - "+(offset+act.length())+"[ different");
}
offset += act.length();
}
assertEquals(JsonToken.END_ARRAY, jp.getCurrentToken());
jp.close();
}
}