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skia / external / github.com / unicode-org / icu / fed2240af3e08562472f963d33e74c2e8267f10a / . / source / test / intltest / callimts.cpp
blob: 5c3b0b33671899b1134798b5126541212ae01aab [file] [log] [blame]
/***********************************************************************
* COPYRIGHT:
* Copyright (c) 1997-2009, International Business Machines Corporation
* and others. All Rights Reserved.
***********************************************************************/
#include "unicode/utypes.h"
#if !UCONFIG_NO_FORMATTING
#include "callimts.h"
#include "caltest.h"
#include "unicode/calendar.h"
#include "unicode/gregocal.h"
#include "unicode/datefmt.h"
#include "unicode/smpdtfmt.h"
#include "putilimp.h"
#include "cstring.h"
U_NAMESPACE_USE
void CalendarLimitTest::runIndexedTest( int32_t index, UBool exec, const char* &name, char* /*par*/ )
{
if (exec) logln("TestSuite TestCalendarLimit");
switch (index) {
// Re-enable this later
case 0:
name = "TestCalendarExtremeLimit";
if (exec) {
logln("TestCalendarExtremeLimit---"); logln("");
TestCalendarExtremeLimit();
}
break;
case 1:
name = "TestLimits";
if (exec) {
logln("TestLimits---"); logln("");
TestLimits();
}
break;
default: name = ""; break;
}
}
// *****************************************************************************
// class CalendarLimitTest
// *****************************************************************************
// -------------------------------------
void
CalendarLimitTest::test(UDate millis, U_NAMESPACE_QUALIFIER Calendar* cal, U_NAMESPACE_QUALIFIER DateFormat* fmt)
{
static const UDate kDrift = 1e-10;
UErrorCode exception = U_ZERO_ERROR;
UnicodeString theDate;
UErrorCode status = U_ZERO_ERROR;
cal->setTime(millis, exception);
if (U_SUCCESS(exception)) {
fmt->format(millis, theDate);
UDate dt = fmt->parse(theDate, status);
// allow a small amount of error (drift)
if(! withinErr(dt, millis, kDrift)) {
errln("FAIL:round trip for large milli, got: %.1lf wanted: %.1lf. (delta %.2lf greater than %.2lf)",
dt, millis, uprv_fabs(millis-dt), uprv_fabs(dt*kDrift));
logln(UnicodeString(" ") + theDate + " " + CalendarTest::calToStr(*cal));
} else {
logln(UnicodeString("OK: got ") + dt + ", wanted " + millis);
logln(UnicodeString(" ") + theDate);
}
}
}
// -------------------------------------
// bug 986c: deprecate nextDouble/previousDouble
//|double
//|CalendarLimitTest::nextDouble(double a)
//|{
//| return uprv_nextDouble(a, TRUE);
//|}
//|
//|double
//|CalendarLimitTest::previousDouble(double a)
//|{
//| return uprv_nextDouble(a, FALSE);
//|}
UBool
CalendarLimitTest::withinErr(double a, double b, double err)
{
return ( uprv_fabs(a - b) < uprv_fabs(a * err) );
}
void
CalendarLimitTest::TestCalendarExtremeLimit()
{
UErrorCode status = U_ZERO_ERROR;
Calendar *cal = Calendar::createInstance(status);
if (failure(status, "Calendar::createInstance")) return;
cal->adoptTimeZone(TimeZone::createTimeZone("GMT"));
DateFormat *fmt = DateFormat::createDateTimeInstance();
if(!fmt || !cal) {
dataerrln("can't open cal and/or fmt");
return;
}
fmt->adoptCalendar(cal);
((SimpleDateFormat*) fmt)->applyPattern("HH:mm:ss.SSS zzz, EEEE, MMMM d, yyyy G");
// This test used to test the algorithmic limits of the dates that
// GregorianCalendar could handle. However, the algorithm has
// been rewritten completely since then and the prior limits no
// longer apply. Instead, we now do basic round-trip testing of
// some extreme (but still manageable) dates.
UDate m;
logln("checking 1e16..1e17");
for ( m = 1e16; m < 1e17; m *= 1.1) {
test(m, cal, fmt);
}
logln("checking -1e14..-1e15");
for ( m = -1e14; m > -1e15; m *= 1.1) {
test(m, cal, fmt);
}
// This is 2^52 - 1, the largest allowable mantissa with a 0
// exponent in a 64-bit double
UDate VERY_EARLY_MILLIS = - 4503599627370495.0;
UDate VERY_LATE_MILLIS = 4503599627370495.0;
// I am removing the previousDouble and nextDouble calls below for
// two reasons: 1. As part of jitterbug 986, I am deprecating
// these methods and removing calls to them. 2. This test is a
// non-critical boundary behavior test.
test(VERY_EARLY_MILLIS, cal, fmt);
//test(previousDouble(VERY_EARLY_MILLIS), cal, fmt);
test(VERY_LATE_MILLIS, cal, fmt);
//test(nextDouble(VERY_LATE_MILLIS), cal, fmt);
delete fmt;
}
void
CalendarLimitTest::TestLimits(void) {
static const UDate DEFAULT_START = 944006400000.0; // 1999-12-01T00:00Z
static const struct {
const char *type;
UBool hasLeapMonth;
UDate actualTestStart;
} TestCases[] = {
{"gregorian", FALSE, DEFAULT_START},
{"japanese", FALSE, 596937600000.0}, // 1988-12-01T00:00Z, Showa 63
{"buddhist", FALSE, DEFAULT_START},
{"roc", FALSE, DEFAULT_START},
{"persian", FALSE, DEFAULT_START},
{"islamic-civil", FALSE, DEFAULT_START},
//{"islamic", FALSE, DEFAULT_START}, // TODO: there is a bug in monthlength calculation
{"hebrew", TRUE, DEFAULT_START},
{"chinese", TRUE, DEFAULT_START},
{"indian", FALSE, DEFAULT_START},
{"coptic", FALSE, DEFAULT_START},
{"ethiopic", FALSE, DEFAULT_START},
{"ethiopic-amete-alem", FALSE, DEFAULT_START},
{NULL, FALSE, 0.0}
};
int16_t i = 0;
char buf[64];
for (i = 0; TestCases[i].type; i++) {
UErrorCode status = U_ZERO_ERROR;
uprv_strcpy(buf, "root@calendar=");
strcat(buf, TestCases[i].type);
Calendar *cal = Calendar::createInstance(buf, status);
if (failure(status, "Calendar::createInstance")) {
continue;
}
if (uprv_strcmp(cal->getType(), TestCases[i].type) != 0) {
errln((UnicodeString)"FAIL: Wrong calendar type: " + cal->getType()
+ " Requested: " + TestCases[i].type);
delete cal;
continue;
}
// Do the test
doTheoreticalLimitsTest(*cal, TestCases[i].hasLeapMonth);
doLimitsTest(*cal, TestCases[i].actualTestStart);
delete cal;
}
}
void
CalendarLimitTest::doTheoreticalLimitsTest(Calendar& cal, UBool leapMonth) {
const char* calType = cal.getType();
int32_t nDOW = cal.getMaximum(UCAL_DAY_OF_WEEK);
int32_t maxDOY = cal.getMaximum(UCAL_DAY_OF_YEAR);
int32_t lmaxDOW = cal.getLeastMaximum(UCAL_DAY_OF_YEAR);
int32_t maxWOY = cal.getMaximum(UCAL_WEEK_OF_YEAR);
int32_t lmaxWOY = cal.getLeastMaximum(UCAL_WEEK_OF_YEAR);
int32_t maxM = cal.getMaximum(UCAL_MONTH) + 1;
int32_t lmaxM = cal.getLeastMaximum(UCAL_MONTH) + 1;
int32_t maxDOM = cal.getMaximum(UCAL_DAY_OF_MONTH);
int32_t lmaxDOM = cal.getLeastMaximum(UCAL_DAY_OF_MONTH);
int32_t maxDOWIM = cal.getMaximum(UCAL_DAY_OF_WEEK_IN_MONTH);
int32_t lmaxDOWIM = cal.getLeastMaximum(UCAL_DAY_OF_WEEK_IN_MONTH);
int32_t maxWOM = cal.getMaximum(UCAL_WEEK_OF_MONTH);
int32_t lmaxWOM = cal.getLeastMaximum(UCAL_WEEK_OF_MONTH);
int32_t minDaysInFirstWeek = cal.getMinimalDaysInFirstWeek();
// Day of year
int32_t expected;
if (!leapMonth) {
expected = maxM*maxDOM;
if (maxDOY > expected) {
errln((UnicodeString)"FAIL: [" + calType + "] Maximum value of DAY_OF_YEAR is too big: "
+ maxDOY + "/expected: <=" + expected);
}
expected = lmaxM*lmaxDOM;
if (lmaxDOW < expected) {
errln((UnicodeString)"FAIL: [" + calType + "] Least maximum value of DAY_OF_YEAR is too small: "
+ lmaxDOW + "/expected: >=" + expected);
}
}
// Week of year
expected = maxDOY/nDOW + 1;
if (maxWOY > expected) {
errln((UnicodeString)"FAIL: [" + calType + "] Maximum value of WEEK_OF_YEAR is too big: "
+ maxWOY + "/expected: <=" + expected);
}
expected = lmaxDOW/nDOW;
if (lmaxWOY < expected) {
errln((UnicodeString)"FAIL: [" + calType + "] Least maximum value of WEEK_OF_YEAR is too small: "
+ lmaxWOY + "/expected >=" + expected);
}
// Day of week in month
expected = (maxDOM + nDOW - 1)/nDOW;
if (maxDOWIM != expected) {
errln((UnicodeString)"FAIL: [" + calType + "] Maximum value of DAY_OF_WEEK_IN_MONTH is incorrect: "
+ maxDOWIM + "/expected: " + expected);
}
expected = (lmaxDOM + nDOW - 1)/nDOW;
if (lmaxDOWIM != expected) {
errln((UnicodeString)"FAIL: [" + calType + "] Least maximum value of DAY_OF_WEEK_IN_MONTH is incorrect: "
+ lmaxDOWIM + "/expected: " + expected);
}
// Week of month
expected = (maxDOM + (nDOW - 1) + (nDOW - minDaysInFirstWeek)) / nDOW;
if (maxWOM != expected) {
errln((UnicodeString)"FAIL: [" + calType + "] Maximum value of WEEK_OF_MONTH is incorrect: "
+ maxWOM + "/expected: " + expected);
}
expected = (lmaxDOM + (nDOW - minDaysInFirstWeek)) / nDOW;
if (lmaxWOM != expected) {
errln((UnicodeString)"FAIL: [" + calType + "] Least maximum value of WEEK_OF_MONTH is incorrect: "
+ lmaxWOM + "/expected: " + expected);
}
}
void
CalendarLimitTest::doLimitsTest(Calendar& cal, UDate startDate) {
int32_t testTime = quick ? -3 : -120;
doLimitsTest(cal, NULL /*default fields*/, startDate, testTime);
}
void
CalendarLimitTest::doLimitsTest(Calendar& cal,
const int32_t* fieldsToTest,
UDate startDate,
int32_t testDuration) {
static const int32_t FIELDS[] = {
UCAL_ERA,
UCAL_YEAR,
UCAL_MONTH,
UCAL_WEEK_OF_YEAR,
UCAL_WEEK_OF_MONTH,
UCAL_DAY_OF_MONTH,
UCAL_DAY_OF_YEAR,
UCAL_DAY_OF_WEEK_IN_MONTH,
UCAL_YEAR_WOY,
UCAL_EXTENDED_YEAR,
-1,
};
static const char* FIELD_NAME[] = {
"ERA", "YEAR", "MONTH", "WEEK_OF_YEAR", "WEEK_OF_MONTH",
"DAY_OF_MONTH", "DAY_OF_YEAR", "DAY_OF_WEEK",
"DAY_OF_WEEK_IN_MONTH", "AM_PM", "HOUR", "HOUR_OF_DAY",
"MINUTE", "SECOND", "MILLISECOND", "ZONE_OFFSET",
"DST_OFFSET", "YEAR_WOY", "DOW_LOCAL", "EXTENDED_YEAR",
"JULIAN_DAY", "MILLISECONDS_IN_DAY",
"IS_LEAP_MONTH"
};
UErrorCode status = U_ZERO_ERROR;
int32_t i, j;
UnicodeString ymd;
GregorianCalendar greg(status);
if (failure(status, "new GregorianCalendar")) {
return;
}
greg.setTime(startDate, status);
if (failure(status, "GregorianCalendar::setTime")) {
return;
}
logln((UnicodeString)"Start: " + startDate);
if (fieldsToTest == NULL) {
fieldsToTest = FIELDS;
}
// Keep a record of minima and maxima that we actually see.
// These are kept in an array of arrays of hashes.
int32_t limits[UCAL_FIELD_COUNT][4];
for (j = 0; j < UCAL_FIELD_COUNT; j++) {
limits[j][0] = INT32_MAX;
limits[j][1] = INT32_MIN;
limits[j][2] = INT32_MAX;
limits[j][3] = INT32_MIN;
}
// This test can run for a long time; show progress.
UDate millis = ucal_getNow();
UDate mark = millis + 5000; // 5 sec
millis -= testDuration * 1000; // stop time if testDuration<0
for (i = 0;
testDuration > 0 ? i < testDuration
: ucal_getNow() < millis;
++i) {
if (ucal_getNow() >= mark) {
logln((UnicodeString)"(" + i + " days)");
mark += 5000; // 5 sec
}
cal.setTime(greg.getTime(status), status);
cal.setMinimalDaysInFirstWeek(1);
if (failure(status, "Calendar set/getTime")) {
return;
}
for (j = 0; fieldsToTest[j] >= 0; ++j) {
UCalendarDateFields f = (UCalendarDateFields)fieldsToTest[j];
int32_t v = cal.get(f, status);
int32_t minActual = cal.getActualMinimum(f, status);
int32_t maxActual = cal.getActualMaximum(f, status);
int32_t minLow = cal.getMinimum(f);
int32_t minHigh = cal.getGreatestMinimum(f);
int32_t maxLow = cal.getLeastMaximum(f);
int32_t maxHigh = cal.getMaximum(f);
if (limits[j][0] > minActual) {
// the minimum
limits[j][0] = minActual;
}
if (limits[j][1] < minActual) {
// the greatest minimum
limits[j][1] = minActual;
}
if (limits[j][2] > maxActual) {
// the least maximum
limits[j][2] = maxActual;
}
if (limits[j][3] < maxActual) {
// the maximum
limits[j][3] = maxActual;
}
if (minActual < minLow || minActual > minHigh) {
errln((UnicodeString)"Fail: [" + cal.getType() + "] " +
ymdToString(cal, ymd) +
" Range for min of " + FIELD_NAME[f] + "(" + f +
")=" + minLow + ".." + minHigh +
", actual_min=" + minActual);
}
if (maxActual < maxLow || maxActual > maxHigh) {
errln((UnicodeString)"Fail: [" + cal.getType() + "] " +
ymdToString(cal, ymd) +
" Range for max of " + FIELD_NAME[f] + "(" + f +
")=" + maxLow + ".." + maxHigh +
", actual_max=" + maxActual);
}
if (v < minActual || v > maxActual) {
errln((UnicodeString)"Fail: [" + cal.getType() + "] " +
ymdToString(cal, ymd) +
" " + FIELD_NAME[f] + "(" + f + ")=" + v +
", actual range=" + minActual + ".." + maxActual +
", allowed=(" + minLow + ".." + minHigh + ")..(" +
maxLow + ".." + maxHigh + ")");
}
}
greg.add(UCAL_DAY_OF_YEAR, 1, status);
if (failure(status, "Calendar::add")) {
return;
}
}
// Check actual maxima and minima seen against ranges returned
// by API.
UnicodeString buf;
for (j = 0; fieldsToTest[j] >= 0; ++j) {
int32_t rangeLow, rangeHigh;
UBool fullRangeSeen = TRUE;
UCalendarDateFields f = (UCalendarDateFields)fieldsToTest[j];
buf.remove();
buf.append((UnicodeString)"[" + cal.getType() + "] " + FIELD_NAME[f]);
// Minumum
rangeLow = cal.getMinimum(f);
rangeHigh = cal.getGreatestMinimum(f);
if (limits[j][0] != rangeLow || limits[j][1] != rangeHigh) {
fullRangeSeen = FALSE;
}
buf.append((UnicodeString)" minima range=" + rangeLow + ".." + rangeHigh);
buf.append((UnicodeString)" minima actual=" + limits[j][0] + ".." + limits[j][1]);
// Maximum
rangeLow = cal.getLeastMaximum(f);
rangeHigh = cal.getMaximum(f);
if (limits[j][2] != rangeLow || limits[j][3] != rangeHigh) {
fullRangeSeen = FALSE;
}
buf.append((UnicodeString)" maxima range=" + rangeLow + ".." + rangeHigh);
buf.append((UnicodeString)" maxima actual=" + limits[j][2] + ".." + limits[j][3]);
if (fullRangeSeen) {
logln((UnicodeString)"OK: " + buf);
} else {
// This may or may not be an error -- if the range of dates
// we scan over doesn't happen to contain a minimum or
// maximum, it doesn't mean some other range won't.
logln((UnicodeString)"Warning: " + buf);
}
}
logln((UnicodeString)"End: " + greg.getTime(status));
}
UnicodeString&
CalendarLimitTest::ymdToString(const Calendar& cal, UnicodeString& str) {
UErrorCode status = U_ZERO_ERROR;
str.remove();
str.append((UnicodeString)"" + cal.get(UCAL_EXTENDED_YEAR, status)
+ "/" + (cal.get(UCAL_MONTH, status) + 1)
+ (cal.get(UCAL_IS_LEAP_MONTH, status) == 1 ? "(leap)" : "")
+ "/" + cal.get(UCAL_DATE, status)
+ ", time=" + cal.getTime(status));
return str;
}
#endif /* #if !UCONFIG_NO_FORMATTING */
// eof