/* ******************************************************************************* * Copyright (C) 2007-2011, International Business Machines Corporation and * others. All Rights Reserved. ******************************************************************************** * File PLURRULTS.cpp * ******************************************************************************** */ #include "unicode/utypes.h" #if !UCONFIG_NO_FORMATTING #include <stdlib.h> // for strtod #include "plurults.h" #include "unicode/plurrule.h" #define LENGTHOF(array) (int32_t)(sizeof(array)/sizeof(array[0])) void setupResult(const int32_t testSource[], char result[], int32_t* max); UBool checkEqual(PluralRules *test, char *result, int32_t max); UBool testEquality(PluralRules *test); // This is an API test, not a unit test. It doesn't test very many cases, and doesn't // try to test the full functionality. It just calls each function in the class and // verifies that it works on a basic level. void PluralRulesTest::runIndexedTest( int32_t index, UBool exec, const char* &name, char* /*par*/ ) { if (exec) logln("TestSuite PluralRulesAPI"); switch (index) { TESTCASE(0, testAPI); TESTCASE(1, testGetUniqueKeywordValue); TESTCASE(2, testGetSamples); TESTCASE(3, testWithin); TESTCASE(4, testGetAllKeywordValues); default: name = ""; break; } } #define PLURAL_TEST_NUM 18 /** * Test various generic API methods of PluralRules for API coverage. */ void PluralRulesTest::testAPI(/*char *par*/) { UnicodeString pluralTestData[PLURAL_TEST_NUM] = { UNICODE_STRING_SIMPLE("a: n is 1"), UNICODE_STRING_SIMPLE("a: n mod 10 is 2"), UNICODE_STRING_SIMPLE("a: n is not 1"), UNICODE_STRING_SIMPLE("a: n mod 3 is not 1"), UNICODE_STRING_SIMPLE("a: n in 2..5"), UNICODE_STRING_SIMPLE("a: n within 2..5"), UNICODE_STRING_SIMPLE("a: n not in 2..5"), UNICODE_STRING_SIMPLE("a: n not within 2..5"), UNICODE_STRING_SIMPLE("a: n mod 10 in 2..5"), UNICODE_STRING_SIMPLE("a: n mod 10 within 2..5"), UNICODE_STRING_SIMPLE("a: n mod 10 is 2 and n is not 12"), UNICODE_STRING_SIMPLE("a: n mod 10 in 2..3 or n mod 10 is 5"), UNICODE_STRING_SIMPLE("a: n mod 10 within 2..3 or n mod 10 is 5"), UNICODE_STRING_SIMPLE("a: n is 1 or n is 4 or n is 23"), UNICODE_STRING_SIMPLE("a: n mod 2 is 1 and n is not 3 and n in 1..11"), UNICODE_STRING_SIMPLE("a: n mod 2 is 1 and n is not 3 and n within 1..11"), UNICODE_STRING_SIMPLE("a: n mod 2 is 1 or n mod 5 is 1 and n is not 6"), "", }; static const int32_t pluralTestResult[PLURAL_TEST_NUM][30] = { {1, 0}, {2,12,22, 0}, {0,2,3,4,5,0}, {0,2,3,5,6,8,9,0}, {2,3,4,5,0}, {2,3,4,5,0}, {0,1,6,7,8, 0}, {0,1,6,7,8, 0}, {2,3,4,5,12,13,14,15,22,23,24,25,0}, {2,3,4,5,12,13,14,15,22,23,24,25,0}, {2,22,32,42,0}, {2,3,5,12,13,15,22,23,25,0}, {2,3,5,12,13,15,22,23,25,0}, {1,4,23,0}, {1,5,7,9,11,0}, {1,5,7,9,11,0}, {1,3,5,7,9,11,13,15,16,0}, }; UErrorCode status = U_ZERO_ERROR; // ======= Test constructors logln("Testing PluralRules constructors"); logln("\n start default locale test case ..\n"); PluralRules defRule(status); PluralRules* test=new PluralRules(status); PluralRules* newEnPlural= test->forLocale(Locale::getEnglish(), status); if(U_FAILURE(status)) { dataerrln("ERROR: Could not create PluralRules (default) - exitting"); delete test; return; } // ======= Test clone, assignment operator && == operator. PluralRules *dupRule = defRule.clone(); if (dupRule==NULL) { errln("ERROR: clone plural rules test failed!"); delete test; return; } else { if ( *dupRule != defRule ) { errln("ERROR: clone plural rules test failed!"); } } *dupRule = *newEnPlural; if (dupRule!=NULL) { if ( *dupRule != *newEnPlural ) { errln("ERROR: clone plural rules test failed!"); } delete dupRule; } delete newEnPlural; // ======= Test empty plural rules logln("Testing Simple PluralRules"); PluralRules* empRule = test->createRules(UNICODE_STRING_SIMPLE("a:n"), status); UnicodeString key; for (int32_t i=0; i<10; ++i) { key = empRule->select(i); if ( key.charAt(0)!= 0x61 ) { // 'a' errln("ERROR: empty plural rules test failed! - exitting"); } } if (empRule!=NULL) { delete empRule; } // ======= Test simple plural rules logln("Testing Simple PluralRules"); char result[100]; int32_t max; for (int32_t i=0; i<PLURAL_TEST_NUM-1; ++i) { PluralRules *newRules = test->createRules(pluralTestData[i], status); setupResult(pluralTestResult[i], result, &max); if ( !checkEqual(newRules, result, max) ) { errln("ERROR: simple plural rules failed! - exitting"); delete test; return; } if (newRules!=NULL) { delete newRules; } } // ======= Test complex plural rules logln("Testing Complex PluralRules"); // TODO: the complex test data is hard coded. It's better to implement // a parser to parse the test data. UnicodeString complexRule = UNICODE_STRING_SIMPLE("a: n in 2..5; b: n in 5..8; c: n mod 2 is 1"); UnicodeString complexRule2 = UNICODE_STRING_SIMPLE("a: n within 2..5; b: n within 5..8; c: n mod 2 is 1"); char cRuleResult[] = { 0x6F, // 'o' 0x63, // 'c' 0x61, // 'a' 0x61, // 'a' 0x61, // 'a' 0x61, // 'a' 0x62, // 'b' 0x62, // 'b' 0x62, // 'b' 0x63, // 'c' 0x6F, // 'o' 0x63 // 'c' }; PluralRules *newRules = test->createRules(complexRule, status); if ( !checkEqual(newRules, cRuleResult, 12) ) { errln("ERROR: complex plural rules failed! - exitting"); delete test; return; } if (newRules!=NULL) { delete newRules; newRules=NULL; } newRules = test->createRules(complexRule2, status); if ( !checkEqual(newRules, cRuleResult, 12) ) { errln("ERROR: complex plural rules failed! - exitting"); delete test; return; } if (newRules!=NULL) { delete newRules; newRules=NULL; } // ======= Test decimal fractions plural rules UnicodeString decimalRule= UNICODE_STRING_SIMPLE("a: n not in 0..100;"); UnicodeString KEYWORD_A = UNICODE_STRING_SIMPLE("a"); status = U_ZERO_ERROR; newRules = test->createRules(decimalRule, status); if (U_FAILURE(status)) { dataerrln("ERROR: Could not create PluralRules for testing fractions - exitting"); delete test; return; } double fData[10] = {-100, -1, -0.0, 0, 0.1, 1, 1.999, 2.0, 100, 100.001 }; UBool isKeywordA[10] = { TRUE, TRUE, FALSE, FALSE, TRUE, FALSE, TRUE, FALSE, FALSE, TRUE }; for (int32_t i=0; i<10; i++) { if ((newRules->select(fData[i])== KEYWORD_A) != isKeywordA[i]) { errln("ERROR: plural rules for decimal fractions test failed!"); } } if (newRules!=NULL) { delete newRules; newRules=NULL; } // ======= Test Equality logln("Testing Equality of PluralRules"); if ( !testEquality(test) ) { errln("ERROR: complex plural rules failed! - exitting"); delete test; return; } // ======= Test getStaticClassID() logln("Testing getStaticClassID()"); if(test->getDynamicClassID() != PluralRules::getStaticClassID()) { errln("ERROR: getDynamicClassID() didn't return the expected value"); } // ====== Test fallback to parent locale PluralRules *en_UK = test->forLocale(Locale::getUK(), status); PluralRules *en = test->forLocale(Locale::getEnglish(), status); if (en_UK != NULL && en != NULL) { if ( *en_UK != *en ) { errln("ERROR: test locale fallback failed!"); } } delete en; delete en_UK; PluralRules *zh_Hant = test->forLocale(Locale::getTaiwan(), status); PluralRules *zh = test->forLocale(Locale::getChinese(), status); if (zh_Hant != NULL && zh != NULL) { if ( *zh_Hant != *zh ) { errln("ERROR: test locale fallback failed!"); } } delete zh_Hant; delete zh; delete test; } void setupResult(const int32_t testSource[], char result[], int32_t* max) { int32_t i=0; int32_t curIndex=0; do { while (curIndex < testSource[i]) { result[curIndex++]=0x6F; //'o' other } result[curIndex++]=0x61; // 'a' } while(testSource[++i]>0); *max=curIndex; } UBool checkEqual(PluralRules *test, char *result, int32_t max) { UnicodeString key; UBool isEqual = TRUE; for (int32_t i=0; i<max; ++i) { key= test->select(i); if ( key.charAt(0)!=result[i] ) { isEqual = FALSE; } } return isEqual; } #define MAX_EQ_ROW 2 #define MAX_EQ_COL 5 UBool testEquality(PluralRules *test) { UnicodeString testEquRules[MAX_EQ_ROW][MAX_EQ_COL] = { { UNICODE_STRING_SIMPLE("a: n in 2..3"), UNICODE_STRING_SIMPLE("a: n is 2 or n is 3"), UNICODE_STRING_SIMPLE( "a:n is 3 and n in 2..5 or n is 2"), "", }, { UNICODE_STRING_SIMPLE("a: n is 12; b:n mod 10 in 2..3"), UNICODE_STRING_SIMPLE("b: n mod 10 in 2..3 and n is not 12; a: n in 12..12"), UNICODE_STRING_SIMPLE("b: n is 13; a: n in 12..13; b: n mod 10 is 2 or n mod 10 is 3"), "", } }; UErrorCode status = U_ZERO_ERROR; UnicodeString key[MAX_EQ_COL]; UBool ret=TRUE; for (int32_t i=0; i<MAX_EQ_ROW; ++i) { PluralRules* rules[MAX_EQ_COL]; for (int32_t j=0; j<MAX_EQ_COL; ++j) { rules[j]=NULL; } int32_t totalRules=0; while((totalRules<MAX_EQ_COL) && (testEquRules[i][totalRules].length()>0) ) { rules[totalRules]=test->createRules(testEquRules[i][totalRules], status); totalRules++; } for (int32_t n=0; n<300 && ret ; ++n) { for(int32_t j=0; j<totalRules;++j) { key[j] = rules[j]->select(n); } for(int32_t j=0; j<totalRules-1;++j) { if (key[j]!=key[j+1]) { ret= FALSE; break; } } } for (int32_t j=0; j<MAX_EQ_COL; ++j) { if (rules[j]!=NULL) { delete rules[j]; } } } return ret; } void PluralRulesTest::assertRuleValue(const UnicodeString& rule, double expected) { assertRuleKeyValue("a:" + rule, "a", expected); } void PluralRulesTest::assertRuleKeyValue(const UnicodeString& rule, const UnicodeString& key, double expected) { UErrorCode status = U_ZERO_ERROR; PluralRules *pr = PluralRules::createRules(rule, status); double result = pr->getUniqueKeywordValue(key); delete pr; if (expected != result) { errln("expected %g but got %g", expected, result); } } void PluralRulesTest::testGetUniqueKeywordValue() { assertRuleValue("n is 1", 1); assertRuleValue("n in 2..2", 2); assertRuleValue("n within 2..2", 2); assertRuleValue("n in 3..4", UPLRULES_NO_UNIQUE_VALUE); assertRuleValue("n within 3..4", UPLRULES_NO_UNIQUE_VALUE); assertRuleValue("n is 2 or n is 2", 2); assertRuleValue("n is 2 and n is 2", 2); assertRuleValue("n is 2 or n is 3", UPLRULES_NO_UNIQUE_VALUE); assertRuleValue("n is 2 and n is 3", UPLRULES_NO_UNIQUE_VALUE); assertRuleValue("n is 2 or n in 2..3", UPLRULES_NO_UNIQUE_VALUE); assertRuleValue("n is 2 and n in 2..3", 2); assertRuleKeyValue("a: n is 1", "not_defined", UPLRULES_NO_UNIQUE_VALUE); // key not defined assertRuleKeyValue("a: n is 1", "other", UPLRULES_NO_UNIQUE_VALUE); // key matches default rule } void PluralRulesTest::testGetSamples() { // no get functional equivalent API in ICU4C, so just // test every locale... UErrorCode status = U_ZERO_ERROR; int32_t numLocales; const Locale* locales = Locale::getAvailableLocales(numLocales); double values[4]; for (int32_t i = 0; U_SUCCESS(status) && i < numLocales; ++i) { PluralRules *rules = PluralRules::forLocale(locales[i], status); if (U_FAILURE(status)) { break; } StringEnumeration *keywords = rules->getKeywords(status); if (U_FAILURE(status)) { delete rules; break; } const UnicodeString* keyword; while (NULL != (keyword = keywords->snext(status))) { int32_t count = rules->getSamples(*keyword, values, 4, status); if (U_FAILURE(status)) { errln(UNICODE_STRING_SIMPLE("getSamples() failed for locale ") + locales[i].getName() + UNICODE_STRING_SIMPLE(", keyword ") + *keyword); continue; } if (count == 0) { errln("no samples for keyword"); } if (count > LENGTHOF(values)) { errln(UNICODE_STRING_SIMPLE("getSamples()=") + count + UNICODE_STRING_SIMPLE(", too many values, for locale ") + locales[i].getName() + UNICODE_STRING_SIMPLE(", keyword ") + *keyword); count = LENGTHOF(values); } for (int32_t j = 0; j < count; ++j) { if (values[j] == UPLRULES_NO_UNIQUE_VALUE) { errln("got 'no unique value' among values"); } else { UnicodeString resultKeyword = rules->select(values[j]); if (*keyword != resultKeyword) { errln("keywords don't match"); } } } } delete keywords; delete rules; } } void PluralRulesTest::testWithin() { // goes to show you what lack of testing will do. // of course, this has been broken for two years and no one has noticed... UErrorCode status = U_ZERO_ERROR; PluralRules *rules = PluralRules::createRules("a: n mod 10 in 5..8", status); if (!rules) { errln("couldn't instantiate rules"); return; } UnicodeString keyword = rules->select((int32_t)26); if (keyword != "a") { errln("expected 'a' for 26 but didn't get it."); } keyword = rules->select(26.5); if (keyword != "other") { errln("expected 'other' for 26.5 but didn't get it."); } delete rules; } void PluralRulesTest::testGetAllKeywordValues() { const char* data[] = { "a: n in 2..5", "a: 2,3,4,5; other: null; b:", "a: n not in 2..5", "a: null; other: null", "a: n within 2..5", "a: null; other: null", "a: n not within 2..5", "a: null; other: null", "a: n in 2..5 or n within 6..8", "a: null", // ignore 'other' here on out, always null "a: n in 2..5 and n within 6..8", "a:", "a: n in 2..5 and n within 5..8", "a: 5", "a: n within 2..5 and n within 6..8", "a:", // our sampling catches these "a: n within 2..5 and n within 5..8", "a: 5", // '' "a: n within 1..2 and n within 2..3 or n within 3..4 and n within 4..5", "a: 2,4", "a: n within 1..2 and n within 2..3 or n within 3..4 and n within 4..5 " "or n within 5..6 and n within 6..7", "a: null", // but not this... "a: n mod 3 is 0", "a: null", "a: n mod 3 is 0 and n within 1..2", "a:", "a: n mod 3 is 0 and n within 0..5", "a: 0,3", "a: n mod 3 is 0 and n within 0..6", "a: null", // similarly with mod, we don't catch... "a: n mod 3 is 0 and n in 3..12", "a: 3,6,9,12", NULL }; for (int i = 0; data[i] != NULL; i += 2) { UErrorCode status = U_ZERO_ERROR; UnicodeString ruleDescription(data[i], -1, US_INV); const char* result = data[i+1]; logln("[%d] %s", i >> 1, data[i]); PluralRules *p = PluralRules::createRules(ruleDescription, status); if (U_FAILURE(status)) { logln("could not create rules from '%s'\n", data[i]); continue; } const char* rp = result; while (*rp) { while (*rp == ' ') ++rp; if (!rp) { break; } const char* ep = rp; while (*ep && *ep != ':') ++ep; status = U_ZERO_ERROR; UnicodeString keyword(rp, ep - rp, US_INV); double samples[4]; // no test above should have more samples than 4 int32_t count = p->getAllKeywordValues(keyword, &samples[0], 4, status); if (U_FAILURE(status)) { errln("error getting samples for %s", rp); break; } if (count > 4) { errln("count > 4 for keyword %s", rp); count = 4; } if (*ep) { ++ep; // skip colon while (*ep && *ep == ' ') ++ep; // and spaces } UBool ok = TRUE; if (count == -1) { if (*ep != 'n') { errln("expected values for keyword %s but got -1 (%s)", rp, ep); ok = FALSE; } } else if (*ep == 'n') { errln("expected count of -1, got %d, for keyword %s (%s)", count, rp, ep); ok = FALSE; } // We'll cheat a bit here. The samples happend to be in order and so are our // expected values, so we'll just test in order until a failure. If the // implementation changes to return samples in an arbitrary order, this test // must change. There's no actual restriction on the order of the samples. for (int j = 0; ok && j < count; ++j ) { // we've verified count < 4 double val = samples[j]; if (*ep == 0 || *ep == ';') { errln("got unexpected value[%d]: %g", j, val); ok = FALSE; break; } char* xp; double expectedVal = strtod(ep, &xp); if (xp == ep) { // internal error errln("yikes!"); ok = FALSE; break; } ep = xp; if (expectedVal != val) { errln("expected %g but got %g", expectedVal, val); ok = FALSE; break; } if (*ep == ',') ++ep; } if (ok && count != -1) { if (!(*ep == 0 || *ep == ';')) { errln("didn't get expected value: %s", ep); ok = FALSE; } } while (*ep && *ep != ';') ++ep; if (*ep == ';') ++ep; rp = ep; } delete p; } } #endif /* #if !UCONFIG_NO_FORMATTING */