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gerrit-public.fairphone.software / platform / external / oj-libjdwp / 3356e3a249972a0df0ab331e3f3b03198413461b / . / test / sun / nio / cs / EuroConverter.java
blob: ea4b6562b0d16db607cd2325a6d504d312279b99 [file] [log] [blame]
/*
* Copyright (c) 2008, Oracle and/or its affiliates. All rights reserved.
* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
*
* This code is free software; you can redistribute it and/or modify it
* under the terms of the GNU General Public License version 2 only, as
* published by the Free Software Foundation.
*
* This code is distributed in the hope that it will be useful, but WITHOUT
* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
* version 2 for more details (a copy is included in the LICENSE file that
* accompanied this code).
*
* You should have received a copy of the GNU General Public License version
* 2 along with this work; if not, write to the Free Software Foundation,
* Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
*
* Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
* or visit www.oracle.com if you need additional information or have any
* questions.
*/
/**
* @test
* @bug 4114080
* @summary Make sure the euro converters, which are derived from
* existing converters, only differ from their parents at the expected
* code point.
*/
import java.text.*;
import java.util.*;
import java.io.*;
/* Author: Alan Liu
* 7/14/98
*/
public class EuroConverter {
public static void main(String args[]) throws Exception {
boolean pass = true;
char[] map = new char[256]; // map for the encoding
byte[] bytes = new byte[1]; // scratch
char[] chars = new char[1]; // scratch
for (int i=0; i<DATA.length; ) {
String euroEnc = DATA[i++];
String parentEnc = DATA[i++];
System.out.println("Checking encoder " + euroEnc + " against " + parentEnc);
String currentEnc = parentEnc;
try {
// Fill map with parent values
for (int j=-128; j<128; ++j) {
bytes[0] = (byte)j;
char parentValue = new String(bytes, parentEnc).charAt(0);
// NOTE: 0x25 doesn't round trip on the EBCDIC code pages,
// so we don't check that code point in the sanity check.
if (j != 0x0025) {
chars[0] = parentValue;
int parentRoundTrip = new String(chars).getBytes(parentEnc)[0];
// This is a sanity check -- we aren't really testing the parent
// encoder here.
if (parentRoundTrip != j) {
pass = false;
System.out.println("Error: Encoder " + parentEnc +
" fails round-trip: " + j +
" -> \\u" + Integer.toHexString(parentValue) +
" -> " + parentRoundTrip);
}
}
map[(j+0x100)&0xFF] = parentValue;
}
// Modify map with new expected values. Each pair has code point, parent value, euro value.
// Terminated by null.
while (DATA[i] != null) {
int codePoint = Integer.valueOf(DATA[i++], 16).intValue();
char expectedParentValue = DATA[i++].charAt(0);
char expectedEuroValue = DATA[i++].charAt(0);
// This is a sanity check -- we aren't really testing the parent
// encoder here.
if (map[codePoint] != expectedParentValue) {
pass = false;
System.out.println("Error: Encoder " + parentEnc +
" " + Integer.toHexString(codePoint) + " -> \\u" +
Integer.toHexString(map[codePoint]) + ", expected \\u" +
Integer.toHexString(expectedParentValue));
}
// Fill in new expected value
map[codePoint] = expectedEuroValue;
}
++i; // Skip over null at end of set
// Now verify the euro encoder
currentEnc = euroEnc;
for (int j=-128; j<128; ++j) {
bytes[0] = (byte)j;
char euroValue = new String(bytes, euroEnc).charAt(0);
chars[0] = euroValue;
// NOTE: 0x15 doesn't round trip on the EBCDIC code pages,
// so we don't check that code point in the sanity check.
if (j != 0x0015) {
int euroRoundTrip = new String(chars).getBytes(euroEnc)[0];
if (euroRoundTrip != j) {
pass = false;
System.out.println("Error: Encoder " + euroEnc +
" fails round-trip at " + j);
}
}
// Compare against the map
if (euroValue != map[(j+0x100)&0xFF]) {
pass = false;
System.out.println("Error: Encoder " + euroEnc +
" " + Integer.toHexString((j+0x100)&0xFF) + " -> \\u" +
Integer.toHexString(euroValue) + ", expected \\u" +
Integer.toHexString(map[(j+0x100)&0xFF]));
}
}
} catch (UnsupportedEncodingException e) {
System.out.println("Unsupported encoding " + currentEnc);
pass = false;
while (i < DATA.length && DATA[i] != null) ++i;
++i; // Skip over null
}
}
if (!pass) {
throw new RuntimeException("Bug 4114080 - Euro encoder test failed");
}
}
static String[] DATA = {
// New converter, parent converter, [ code point that changed, parent code point value,
// euro code point value ], null
// Any number of changed code points may be specified, including zero.
"ISO8859_15_FDIS", "ISO8859_1",
"A4", "\u00A4", "\u20AC",
"A6", "\u00A6", "\u0160",
"A8", "\u00A8", "\u0161",
"B4", "\u00B4", "\u017D",
"B8", "\u00B8", "\u017E",
"BC", "\u00BC", "\u0152",
"BD", "\u00BD", "\u0153",
"BE", "\u00BE", "\u0178",
null,
// 923 is IBM's name for ISO 8859-15; make sure they're identical
"Cp923", "ISO8859_15_FDIS", null,
"Cp858", "Cp850", "D5", "\u0131", "\u20AC", null,
"Cp1140", "Cp037", "9F", "\u00A4", "\u20AC", null,
"Cp1141", "Cp273", "9F", "\u00A4", "\u20AC", null,
"Cp1142", "Cp277", "5A", "\u00A4", "\u20AC", null,
"Cp1143", "Cp278", "5A", "\u00A4", "\u20AC", null,
"Cp1144", "Cp280", "9F", "\u00A4", "\u20AC", null,
"Cp1145", "Cp284", "9F", "\u00A4", "\u20AC", null,
"Cp1146", "Cp285", "9F", "\u00A4", "\u20AC", null,
"Cp1147", "Cp297", "9F", "\u00A4", "\u20AC", null,
"Cp1148", "Cp500", "9F", "\u00A4", "\u20AC", null,
"Cp1149", "Cp871", "9F", "\u00A4", "\u20AC", null,
};
}