/* ******************************************************************************* * Copyright (C) 1996-2015, International Business Machines Corporation and * others. All Rights Reserved. ******************************************************************************* */ package com.ibm.icu.dev.test.normalizer; import java.io.BufferedReader; import java.io.IOException; import java.text.StringCharacterIterator; import com.ibm.icu.dev.test.TestFmwk; import com.ibm.icu.dev.test.TestUtil; import com.ibm.icu.impl.Utility; import com.ibm.icu.text.Normalizer; import com.ibm.icu.text.UTF16; import com.ibm.icu.text.UnicodeSet; public class ConformanceTest extends TestFmwk { Normalizer normalizer; public static void main(String[] args) throws Exception { new ConformanceTest().run(args); } public ConformanceTest() { // Doesn't matter what the string and mode are; we'll change // them later as needed. normalizer = new Normalizer("", Normalizer.NFC, 0); } // more interesting conformance test cases, not in the unicode.org NormalizationTest.txt static String[] moreCases ={ // Markus 2001aug30 "0061 0332 0308;00E4 0332;0061 0332 0308;00E4 0332;0061 0332 0308; # Markus 0", // Markus 2001oct26 - test edge case for iteration: U+0f73.cc==0 but decomposition.lead.cc==129 "0061 0301 0F73;00E1 0F71 0F72;0061 0F71 0F72 0301;00E1 0F71 0F72;0061 0F71 0F72 0301; # Markus 1" }; /** * Test the conformance of Normalizer to * http://www.unicode.org/unicode/reports/tr15/conformance/Draft-TestSuite.txt.* http://www.unicode.org/Public/UNIDATA/NormalizationTest.txt * This file must be located at the path specified as TEST_SUITE_FILE. */ public void TestConformance() throws Exception{ runConformance("unicode/NormalizationTest.txt",0); } public void TestConformance_3_2() throws Exception{ runConformance("unicode/NormalizationTest-3.2.0.txt",Normalizer.UNICODE_3_2); } public void runConformance(String fileName, int options) throws Exception{ String line = null; String[] fields = new String[5]; StringBuffer buf = new StringBuffer(); int passCount = 0; int failCount = 0; UnicodeSet other = new UnicodeSet(0, 0x10ffff); int c=0; BufferedReader input = null; try { input = TestUtil.getDataReader(fileName); for (int count = 0;;++count) { line = input.readLine(); if (line == null) { //read the extra test cases if(count > moreCases.length) { count = 0; } else if(count == moreCases.length) { // all done break; } line = moreCases[count++]; } if (line.length() == 0) continue; // Expect 5 columns of this format: // 1E0C;1E0C;0044 0323;1E0C;0044 0323; # // Skip comments if (line.charAt(0) == '#' || line.charAt(0)=='@') continue; // Parse out the fields hexsplit(line, ';', fields, buf); // Remove a single code point from the "other" UnicodeSet if(fields[0].length()==UTF16.moveCodePointOffset(fields[0],0, 1)) { c=UTF16.charAt(fields[0],0); if(0xac20<=c && c<=0xd73f) { // not an exhaustive test run: skip most Hangul syllables if(c==0xac20) { other.remove(0xac20, 0xd73f); } continue; } other.remove(c); } if (checkConformance(fields, line,options)) { ++passCount; } else { ++failCount; } if ((count % 1000) == 999) { logln("Line " + (count+1)); } } } catch (IOException ex) { ex.printStackTrace(); throw new IllegalArgumentException("Couldn't read file " + ex.getClass().getName() + " " + ex.getMessage() + " line = " + line ); } finally { if (input != null) { try { input.close(); } catch (IOException ignored) { } } } if (failCount != 0) { errln("Total: " + failCount + " lines failed, " + passCount + " lines passed"); } else { logln("Total: " + passCount + " lines passed"); } } /** * Verify the conformance of the given line of the Unicode * normalization (UTR 15) test suite file. For each line, * there are five columns, corresponding to field[0]..field[4]. * * The following invariants must be true for all conformant implementations * c2 == NFC(c1) == NFC(c2) == NFC(c3) * c3 == NFD(c1) == NFD(c2) == NFD(c3) * c4 == NFKC(c1) == NFKC(c2) == NFKC(c3) == NFKC(c4) == NFKC(c5) * c5 == NFKD(c1) == NFKD(c2) == NFKD(c3) == NFKD(c4) == NFKD(c5) * * @param field the 5 columns * @param line the source line from the test suite file * @return true if the test passes */ private boolean checkConformance(String[] field, String line, int options) throws Exception{ boolean pass = true; StringBuffer buf = new StringBuffer(); // scratch String out,fcd; int i=0; for (i=0; i<5; ++i) { if (i<3) { out = Normalizer.normalize(field[i], Normalizer.NFC, options); pass &= assertEqual("C", field[i], out, field[1], "c2!=C(c" + (i+1)); out = iterativeNorm(field[i], Normalizer.NFC, buf, +1,options); pass &= assertEqual("C(+1)", field[i], out, field[1], "c2!=C(c" + (i+1)); out = iterativeNorm(field[i], Normalizer.NFC, buf, -1,options); pass &= assertEqual("C(-1)", field[i], out, field[1], "c2!=C(c" + (i+1)); out = iterativeNorm(new StringCharacterIterator(field[i]), Normalizer.NFC, buf, +1,options); pass &= assertEqual("C(+1)", field[i], out, field[1], "c2!=C(c" + (i+1)); out = iterativeNorm(new StringCharacterIterator(field[i]), Normalizer.NFC, buf, -1,options); pass &= assertEqual("C(-1)", field[i], out, field[1], "c2!=C(c" + (i+1)); out = Normalizer.normalize(field[i], Normalizer.NFD); pass &= assertEqual("D", field[i], out, field[2], "c3!=D(c" + (i+1)); out = iterativeNorm(field[i], Normalizer.NFD, buf, +1,options); pass &= assertEqual("D(+1)", field[i], out, field[2], "c3!=D(c" + (i+1)); out = iterativeNorm(field[i], Normalizer.NFD, buf, -1,options); pass &= assertEqual("D(-1)", field[i], out, field[2], "c3!=D(c" + (i+1)); out = iterativeNorm(new StringCharacterIterator(field[i]), Normalizer.NFD, buf, +1,options); pass &= assertEqual("D(+1)", field[i], out, field[2], "c3!=D(c" + (i+1)); out = iterativeNorm(new StringCharacterIterator(field[i]), Normalizer.NFD, buf, -1,options); pass &= assertEqual("D(-1)", field[i], out, field[2], "c3!=D(c" + (i+1)); cross(field[2] /*NFD String*/, field[1]/*NFC String*/, Normalizer.NFC); cross(field[1] /*NFC String*/, field[2]/*NFD String*/, Normalizer.NFD); } out = Normalizer.normalize(field[i], Normalizer.NFKC,options); pass &= assertEqual("KC", field[i], out, field[3], "c4!=KC(c" + (i+1)); out = iterativeNorm(field[i], Normalizer.NFKC, buf, +1,options); pass &= assertEqual("KD(+1)", field[i], out, field[3], "c4!=KC(c" + (i+1)); out = iterativeNorm(field[i], Normalizer.NFKC, buf, -1,options); pass &= assertEqual("KD(-1)", field[i], out, field[3], "c4!=KC(c" + (i+1)); out = iterativeNorm(new StringCharacterIterator(field[i]), Normalizer.NFKC, buf, +1,options); pass &= assertEqual("KD(+1)", field[i], out, field[3], "c4!=KC(c" + (i+1)); out = iterativeNorm(new StringCharacterIterator(field[i]), Normalizer.NFKC, buf, -1,options); pass &= assertEqual("KD(-1)", field[i], out, field[3], "c4!=KC(c" + (i+1)); out = Normalizer.normalize(field[i], Normalizer.NFKD,options); pass &= assertEqual("KD", field[i], out, field[4], "c5!=KD(c" + (i+1)); out = iterativeNorm(field[i], Normalizer.NFKD, buf, +1,options); pass &= assertEqual("KD(+1)", field[i], out, field[4], "c5!=KD(c" + (i+1)); out = iterativeNorm(field[i], Normalizer.NFKD, buf, -1,options); pass &= assertEqual("KD(-1)", field[i], out, field[4], "c5!=KD(c" + (i+1)); out = iterativeNorm(new StringCharacterIterator(field[i]), Normalizer.NFKD, buf, +1,options); pass &= assertEqual("KD(+1)", field[i], out, field[4], "c5!=KD(c" + (i+1)); out = iterativeNorm(new StringCharacterIterator(field[i]), Normalizer.NFKD, buf, -1,options); pass &= assertEqual("KD(-1)", field[i], out, field[4], "c5!=KD(c" + (i+1)); cross(field[4] /*NFKD String*/, field[3]/*NFKC String*/, Normalizer.NFKC); cross(field[3] /*NFKC String*/, field[4]/*NFKD String*/, Normalizer.NFKD); } compare(field[1],field[2]); compare(field[0],field[1]); compare(field[0],field[2]); // test quick checks if(Normalizer.NO == Normalizer.quickCheck(field[1], Normalizer.NFC,options)) { errln("Normalizer error: quickCheck(NFC(s), Normalizer.NFC) is Normalizer.NO"); pass = false; } if(Normalizer.NO == Normalizer.quickCheck(field[2], Normalizer.NFD,options)) { errln("Normalizer error: quickCheck(NFD(s), Normalizer.NFD) is Normalizer.NO"); pass = false; } if(Normalizer.NO == Normalizer.quickCheck(field[3], Normalizer.NFKC,options)) { errln("Normalizer error: quickCheck(NFKC(s), Normalizer.NFKC) is Normalizer.NO"); pass = false; } if(Normalizer.NO == Normalizer.quickCheck(field[4], Normalizer.NFKD,options)) { errln("Normalizer error: quickCheck(NFKD(s), Normalizer.NFKD) is Normalizer.NO"); pass = false; } if(!Normalizer.isNormalized(field[1], Normalizer.NFC, options)) { errln("Normalizer error: isNormalized(NFC(s), Normalizer.NFC) is false"); pass = false; } if(!field[0].equals(field[1]) && Normalizer.isNormalized(field[0], Normalizer.NFC, options)) { errln("Normalizer error: isNormalized(s, Normalizer.NFC) is TRUE"); pass = false; } if(!Normalizer.isNormalized(field[3], Normalizer.NFKC, options)) { errln("Normalizer error: isNormalized(NFKC(s), Normalizer.NFKC) is false"); pass = false; } if(!field[0].equals(field[3]) && Normalizer.isNormalized(field[0], Normalizer.NFKC, options)) { errln("Normalizer error: isNormalized(s, Normalizer.NFKC) is TRUE"); pass = false; } // test api that takes a char[] if(!Normalizer.isNormalized(field[1].toCharArray(),0,field[1].length(), Normalizer.NFC,options)) { errln("Normalizer error: isNormalized(NFC(s), Normalizer.NFC) is false"); pass = false; } // test api that takes a codepoint if(!Normalizer.isNormalized(UTF16.charAt(field[1],0), Normalizer.NFC,options)) { errln("Normalizer error: isNormalized(NFC(s), Normalizer.NFC) is false"); pass = false; } // test FCD quick check and "makeFCD" fcd=Normalizer.normalize(field[0], Normalizer.FCD); if(Normalizer.NO == Normalizer.quickCheck(fcd, Normalizer.FCD,options)) { errln("Normalizer error: quickCheck(FCD(s), Normalizer.FCD) is Normalizer.NO"); pass = false; } // check FCD return length { char[] fcd2 = new char[ fcd.length() * 2 ]; char[] src = field[0].toCharArray(); int fcdLen = Normalizer.normalize(src, 0, src.length, fcd2, fcd.length(), fcd2.length,Normalizer.FCD, 0); if(fcdLen != fcd.length()){ errln("makeFCD did not return the correct length"); } } if(Normalizer.NO == Normalizer.quickCheck(fcd, Normalizer.FCD, options)) { errln("Normalizer error: quickCheck(FCD(s), Normalizer.FCD) is Normalizer.NO"); pass = false; } if(Normalizer.NO == Normalizer.quickCheck(field[2], Normalizer.FCD, options)) { errln("Normalizer error: quickCheck(NFD(s), Normalizer.FCD) is Normalizer.NO"); pass = false; } if(Normalizer.NO == Normalizer.quickCheck(field[4], Normalizer.FCD, options)) { errln("Normalizer error: quickCheck(NFKD(s), Normalizer.FCD) is Normalizer.NO"); pass = false; } out = iterativeNorm(new StringCharacterIterator(field[0]), Normalizer.FCD, buf, +1,options); out = iterativeNorm(new StringCharacterIterator(field[0]), Normalizer.FCD, buf, -1,options); out = iterativeNorm(new StringCharacterIterator(field[2]), Normalizer.FCD, buf, +1,options); out = iterativeNorm(new StringCharacterIterator(field[2]), Normalizer.FCD, buf, -1,options); out = iterativeNorm(new StringCharacterIterator(field[4]), Normalizer.FCD, buf, +1,options); out = iterativeNorm(new StringCharacterIterator(field[4]), Normalizer.FCD, buf, -1,options); out=Normalizer.normalize(fcd, Normalizer.NFD); if(!out.equals(field[2])) { errln("Normalizer error: NFD(FCD(s))!=NFD(s)"); pass = false; } if (!pass) { errln("FAIL: " + line); } if(field[0]!=field[2]) { // two strings that are canonically equivalent must test // equal under a canonical caseless match // see UAX #21 Case Mappings and Jitterbug 2021 and // Unicode Technical Committee meeting consensus 92-C31 int rc; if((rc = Normalizer.compare(field[0], field[2], (options<1){ if(Normalizer.compare(UTF16.charAt(s1,0),s2,Normalizer.COMPARE_IGNORE_CASE)!=0){ errln("Normalizer.compare(int,String) failed for s1: " +Utility.hex(s1) + " s2: " + Utility.hex(s2)); } } if(s1.length()>1 && s2.length()>1){ // TODO: Re-enable this tests after UTC fixes UAX 21 if(Normalizer.compare(s1.toCharArray(),s2.toCharArray(),Normalizer.COMPARE_IGNORE_CASE)!=0){ errln("Normalizer.compare(char[],char[]) failed for s1: " +Utility.hex(s1) + " s2: " + Utility.hex(s2)); } } } private void cross(String s1, String s2,Normalizer.Mode mode){ String result = Normalizer.normalize(s1,mode); if(!result.equals(s2)){ errln("cross test failed s1: " + Utility.hex(s1) + " s2: " +Utility.hex(s2)); } } /** * Do a normalization using the iterative API in the given direction. * @param buf scratch buffer * @param dir either +1 or -1 */ private String iterativeNorm(String str, Normalizer.Mode mode, StringBuffer buf, int dir ,int options) throws Exception{ normalizer.setText(str); normalizer.setMode(mode); buf.setLength(0); normalizer.setOption(-1, false); // reset all options normalizer.setOption(options, true); // set desired options int ch; if (dir > 0) { for (ch = normalizer.first(); ch != Normalizer.DONE; ch = normalizer.next()) { buf.append(UTF16.valueOf(ch)); } } else { for (ch = normalizer.last(); ch != Normalizer.DONE; ch = normalizer.previous()) { buf.insert(0, UTF16.valueOf(ch)); } } return buf.toString(); } /** * Do a normalization using the iterative API in the given direction. * @param str a Java StringCharacterIterator * @param buf scratch buffer * @param dir either +1 or -1 */ private String iterativeNorm(StringCharacterIterator str, Normalizer.Mode mode, StringBuffer buf, int dir,int options) throws Exception{ normalizer.setText(str); normalizer.setMode(mode); buf.setLength(0); normalizer.setOption(-1, false); // reset all options normalizer.setOption(options, true); // set desired options int ch; if (dir > 0) { for (ch = normalizer.first(); ch != Normalizer.DONE; ch = normalizer.next()) { buf.append(UTF16.valueOf(ch)); } } else { for (ch = normalizer.last(); ch != Normalizer.DONE; ch = normalizer.previous()) { buf.insert(0, UTF16.valueOf(ch)); } } return buf.toString(); } /** * @param op name of normalization form, e.g., "KC" * @param s string being normalized * @param got value received * @param exp expected value * @param msg description of this test * @returns true if got == exp */ private boolean assertEqual(String op, String s, String got, String exp, String msg) { if (exp.equals(got)) { return true; } errln((" " + msg + ") " + op + "(" + s + ")=" + hex(got) + ", exp. " + hex(exp))); return false; } /** * Split a string into pieces based on the given delimiter * character. Then, parse the resultant fields from hex into * characters. That is, "0040 0400;0C00;0899" -> new String[] { * "\u0040\u0400", "\u0C00", "\u0899" }. The output is assumed to * be of the proper length already, and exactly output.length * fields are parsed. If there are too few an exception is * thrown. If there are too many the extras are ignored. * * @param buf scratch buffer */ private static void hexsplit(String s, char delimiter, String[] output, StringBuffer buf) { int i; int pos = 0; for (i=0; i 0xFFFF){ buf.append((char)((hex>>10)+0xd7c0)); buf.append((char)((hex&0x3ff)|0xdc00)); }else{ buf.append((char) hex); } } // Specific tests for debugging. These are generally failures // taken from the conformance file, but culled out to make // debugging easier. These can be eliminated without affecting // coverage. public void _hideTestCase6(int options) throws Exception{ _testOneLine("0385;0385;00A8 0301;0020 0308 0301;0020 0308 0301;",options); } public void _testOneLine(String line,int options) throws Exception{ String[] fields = new String[5]; StringBuffer buf = new StringBuffer(); // Parse out the fields hexsplit(line, ';', fields, buf); checkConformance(fields, line,options); } }