com.sun.star.i18n.XCharacterClassification
* interface methods:
* toUpper() toLower() toTitle() getType() getCharacterType() getStringType() getCharacterDirection() getScript() parseAnyToken() parsePredefinedToken() * Test is NOT multithread compilant.
* @see com.sun.star.i18n.XCharacterClassification
*/
public class _XCharacterClassification extends MultiMethodTest {
public XCharacterClassification oObj = null;
public String[] languages = new String[]{"de","en","es","fr","ja","ko","zh"};
public String[] countries = new String[]{"DE","US","ES","FR","JP","KR","CN"};
public String[] charstyles_java = new String[] {"UNASSIGNED","UPPERCASE_LETTER",
"LOWERCASE_LETTER","TITLECASE_LETTER","MODIFIER_LETTER","OTHER_LETTER",
"NON_SPACING_MARK","ENCLOSING_MARK","COMBINING_SPACING_MARK",
"DECIMAL_DIGIT_NUMBER","LETTER_NUMBER","OTHER_NUMBER","SPACE_SEPARATOR",
"LINE_SEPARATOR","PARAGRAPH_SEPARATOR","CONTROL","FORMAT","none17",
"PRIVATE_USE","none19","DASH_PUNCTUATION","START_PUNCTUATION","END_PUNCTUATION",
"CONNECTOR_PUNCTUATION","OTHER_PUNCTUATION","MATH_SYMBOL","CURRENCY_SYMBOL",
"MODIFIER_SYMBOL","OTHER_SYMBOL"};
public String[] charstyles_office = new String[] {"UNASSIGNED","UPPERCASE_LETTER",
"LOWERCASE_LETTER","TITLECASE_LETTER","MODIFIER_LETTER","OTHER_LETTER",
"NON_SPACING_MARK","ENCLOSING_MARK","COMBINING_SPACING_MARK",
"DECIMAL_DIGIT_NUMBER","LETTER_NUMBER","OTHER_NUMBER","SPACE_SEPARATOR",
"LINE_SEPARATOR","PARAGRAPH_SEPARATOR","CONTROL","FORMAT","PRIVATE_USE",
"OTHER_PUNCTUATION","DASH_PUNCTUATION","START_PUNCTUATION","END_PUNCTUATION",
"CONNECTOR_PUNCTUATION",
"OTHER_PUNCTUATION","MATH_SYMBOL","CURRENCY_SYMBOL","MODIFIER_SYMBOL",
"OTHER_SYMBOL","INITIAL_PUNCTUATION","FINAL_PUNCTUATION","GENERAL_TYPES_COUNT"};
public String[] unicode_script = new String[] {"U_BASIC_LATIN","U_LATIN_1_SUPPLEMENT",
"U_LATIN_EXTENDED_A","U_LATIN_EXTENDED_B","U_IPA_EXTENSIONS","U_SPACING_MODIFIER_LETTERS",
"U_COMBINING_DIACRITICAL_MARKS","U_GREEK","U_CYRILLIC","U_ARMENIAN","U_HEBREW",
"U_ARABIC","U_SYRIAC","U_THAANA","U_DEVANAGARI","U_BENGALI","U_GURMUKHI",
"U_GUJARATI","U_ORIYA","U_TAMIL","U_TELUGU","U_KANNADA","U_MALAYALAM",
"U_SINHALA","U_THAI","U_LAO","U_TIBETAN","U_MYANMAR","U_GEORGIAN",
"U_HANGUL_JAMO","U_ETHIOPIC","U_CHEROKEE","U_UNIFIED_CANADIAN_ABORIGINAL_SYLLABICS",
"U_OGHAM","U_RUNIC","U_KHMER","U_MONGOLIAN","U_LATIN_EXTENDED_ADDITIONAL",
"U_GREEK_EXTENDED","U_GENERAL_PUNCTUATION","U_SUPERSCRIPTS_AND_SUBSCRIPTS",
"U_CURRENCY_SYMBOLS","U_COMBINING_MARKS_FOR_SYMBOLS","U_LETTERLIKE_SYMBOLS",
"U_NUMBER_FORMS","U_ARROWS","U_MATHEMATICAL_OPERATORS","U_MISCELLANEOUS_TECHNICAL",
"U_CONTROL_PICTURES","U_OPTICAL_CHARACTER_RECOGNITION","U_ENCLOSED_ALPHANUMERICS",
"U_BOX_DRAWING","U_BLOCK_ELEMENTS","U_GEOMETRIC_SHAPES","U_MISCELLANEOUS_SYMBOLS",
"U_DINGBATS","U_BRAILLE_PATTERNS","U_CJK_RADICALS_SUPPLEMENT","U_KANGXI_RADICALS",
"U_IDEOGRAPHIC_DESCRIPTION_CHARACTERS","U_CJK_SYMBOLS_AND_PUNCTUATION",
"U_HIRAGANA","U_KATAKANA","U_BOPOMOFO","U_HANGUL_COMPATIBILITY_JAMO","U_KANBUN",
"U_BOPOMOFO_EXTENDED","U_ENCLOSED_CJK_LETTERS_AND_MONTHS","U_CJK_COMPATIBILITY",
"U_CJK_UNIFIED_IDEOGRAPHS_EXTENSION_A","U_CJK_UNIFIED_IDEOGRAPHS","U_YI_SYLLABLES",
"U_YI_RADICALS","U_HANGUL_SYLLABLES","U_HIGH_SURROGATES","U_HIGH_PRIVATE_USE_SURROGATES",
"U_LOW_SURROGATES","U_PRIVATE_USE_AREA","U_CJK_COMPATIBILITY_IDEOGRAPHS",
"U_ALPHABETIC_PRESENTATION_FORMS","U_ARABIC_PRESENTATION_FORMS_A","U_COMBINING_HALF_MARKS",
"U_CJK_COMPATIBILITY_FORMS","U_SMALL_FORM_VARIANTS","U_ARABIC_PRESENTATION_FORMS_B",
"U_SPECIALS","U_HALFWIDTH_AND_FULLWIDTH_FORMS","U_CHAR_SCRIPT_COUNT","U_NO_SCRIPT"};
/**
* Test calls the method for different locales. Then each result is compared
* with a string, converted to a upper case using
* java.lang.String method toUpperCase().
* Has OK status if string, returned by the method is equal to
* a string that is returned by String.toUpperCase() for all locales.
*/
public void _toUpper() {
boolean res = true;
char[] characters = new char[]{586,65,97,498,721,4588,772,8413,3404};
String toCheck = new String(characters);
String get = "";
String exp = "";
for (int i=0;i<7;i++) {
get = oObj.toUpper(toCheck, 0, toCheck.length(), getLocale(i));
exp = toCheck.toUpperCase(
new java.util.Locale(languages[i], countries[i]));
res &= get.equals(exp);
if (!res) {
log.println("FAILED for: language=" + languages[i] +
" ; country=" + countries[i]);
log.println("Expected: " + exp);
log.println("Gained : " + get);
}
}
tRes.tested("toUpper()", res);
}
/**
* Test calls the method for different locales. Then each result is compared
* with a string, converted to a lower case using
* java.lang.String method toLowerCase().
* Has OK status if string, returned by the method is equal to
* a string that is returned by String.toLowerCase() for all locales.
*/
public void _toLower() {
boolean res = true;
char[] characters = new char[]{586,65,97,498,721,4588,772,8413,3404};
String toCheck = new String(characters);
String get = "";
String exp = "";
for (int i=0;i<7;i++) {
get = oObj.toLower(toCheck,0,toCheck.length(),getLocale(i));
exp = toCheck.toLowerCase(
new java.util.Locale(languages[i],countries[i]));
res &= get.equals(exp);
if (!res) {
log.println("FAILED for: language=" + languages[i]
+ " ; country=" + countries[i]);
log.println("Expected: " + exp);
log.println("Gained : " + get);
}
}
tRes.tested("toLower()", res);
}
/**
* Test calls the method for different locales. Then each result is compared
* with a string, converted to a title case using
* java.lang.Character method toTitleCase().
* Has OK status if string, returned by the method is equal to
* a string that was converted using Character.toTitleCase() for all locales.
*/
public void _toTitle() {
boolean res = true;
String toCheck = new String(new char[]{8112});
String get = "";
String exp = "";
for (int i=0;i<7;i++) {
get = oObj.toTitle(toCheck, 0, 1, getLocale(i));
exp = new String(
new char[]{Character.toTitleCase(toCheck.toCharArray()[0])});
res &= get.equals(exp);
if (!res) {
log.println("FAILED for: language=" + languages[i]
+ " ; country=" + countries[i]);
log.println("Expected: " + exp);
log.println("Gained : " + get);
}
}
tRes.tested("toTitle()", res);
}
/**
* At first we define int[] and char[] arrays of
* unicode symbol numbers, arranged as sequences, where symbols are sorted
* by type, so the character of ith
* type is located on ith position.
* Has OK status if for all 30 types the method returns value, that * is equal to an element number.
* @see com.sun.star.i18n.CharType
*/
public void _getType() {
boolean res = true;
char[] characters = new char[]{586,65,97,498,721,4588,772,8413,3404,
48,8544,179,32,8232,8233,144,8204,57344,56320,173,40,41,95,3852,247,
3647,901,3896,171,187};
int[] charsInt = new int[]{586,65,97,498,721,4588,772,8413,3404,48,
8544,179,32,8232,8233,144,8204,57344,56320,173,40,41,95,3852,247,
3647,901,3896,171,187};
String toCheck = new String(characters);
for (int i=0;i
* Has OK status if the method returns direction, that's equal to
* a symbol position in the string.
*/
public void _getCharacterDirection() {
boolean res = true;
String toCheck = new String(new char[]{65,1470,48,47,35,1632,44,10,
9,12,33,8234,8237,1563,8235,8238,8236,768,1});
for (short i=0;i<19;i++) {
short get = oObj.getCharacterDirection(toCheck, i);
res &= (get == i);
if (!res) {
log.println("Code :" + toCheck.toCharArray()[i]);
log.println("Gained: " + get);
log.println("Expected: " + i);
}
}
tRes.tested("getCharacterDirection()", res);
}
/**
* At first we define
* Has OK status if for each character method returns value, that
* is equal to a number where element is located in array. Also method has
* OK status for symbol with code 55296, because it doesn't work
* since it hasn't the right neighborhood.
* @see "http://ppewww.ph.gla.ac.uk/~flavell/unicode/unidata.html"
*/
public void _getScript() {
boolean res = true;
char[] characters = new char[]{65,128,256,384,592,750,773,924,1030,1331,1448,
1569,1792,1936,2313,2465,2570,2707,2822,2972,3079,3240,3337,3464,3590,
3745,3906,4097,4274,4357,4621,5040,5200,5776,5806,6030,6155,7683,7943,
8202,8319,8352,8413,8452,8545,8616,8715,8965,9217,9281,9336,9474,9608,9719,
9734,9999,10247,11911,12034,12274,12294,12358,12456,12552,12605,12688,12727,
12806,13065,13312,19968,40964,42152,44032,55296,56192,56320,57344,63744,
64257,64370,65056,65073,65131,65146,65532,65288};
int[] charsInt = new int[]{65,128,256,384,592,750,773,924,1030,1331,1448,
1569,1792,1936,2313,2465,2570,2707,2822,2972,3079,3240,3337,3464,3590,
3745,3906,4097,4274,4357,4621,5040,5200,5776,5806,6030,6155,7683,7943,
8202,8319,8352,8413,8452,8545,8616,8715,8965,9217,9281,9336,9474,9608,9719,
9734,9999,10247,11911,12034,12274,12294,12358,12456,12552,12605,12688,12727,
12806,13065,13312,19968,40964,42152,44032,55296,56192,56320,57344,63744,
64257,64370,65056,65073,65131,65146,65532,65288};
String toCheck = new String(characters);
for (int i=0;i
* Has OK status if the method returns right results.
*/
public void _parsePredefinedToken() {
int nStartFlags = KParseTokens.ANY_ALPHA | KParseTokens.ASC_UNDERSCORE;
int nContFlags = nStartFlags;
String toCheck = " 18 int";
ParseResult pRes = null;
boolean res = true;
for (int i=0;i<7;i++) {
pRes = oObj.parsePredefinedToken(KParseType.IDENTNAME, toCheck,
1, getLocale(i), nStartFlags, "", nContFlags, "");
res = (pRes.CharLen==0);
pRes = oObj.parsePredefinedToken(KParseType.IDENTNAME, toCheck,
4, getLocale(i), nStartFlags, "", nContFlags, "");
res &= ( (pRes.CharLen==3)
&& (pRes.TokenType==4)
&& (pRes.Value==0.0) );
}
tRes.tested("parsePredefinedToken()", res);
}
/**
* Method returns locale for a given language and country.
* @param k index of needed locale.
*/
private Locale getLocale(int k) {
return new Locale(languages[k],countries[k],"");
}
} // end XCharacterClassification
ith
* position), test calls the method for every character of that string. int[] and char[] arrays of
* unicode symbol numbers, arranged as sequences, where symbols are sorted
* by type, so the character of ith
* type is located on ith position.