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374ca955 1/*
46f4442e 2 **********************************************************************
729e4ab9 3 * Copyright (c) 2003-2008, International Business Machines
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4 * Corporation and others. All Rights Reserved.
5 **********************************************************************
6 * Author: Alan Liu
7 * Created: September 2 2003
8 * Since: ICU 2.8
9 **********************************************************************
10 */
11
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12#ifndef GREGOIMP_H
13#define GREGOIMP_H
14#include "unicode/utypes.h"
15#if !UCONFIG_NO_FORMATTING
16
17#include "unicode/ures.h"
18#include "unicode/locid.h"
19#include "putilimp.h"
20
21U_NAMESPACE_BEGIN
22
23/**
24 * A utility class providing mathematical functions used by time zone
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25 * and calendar code. Do not instantiate. Formerly just named 'Math'.
26 * @internal
374ca955 27 */
729e4ab9 28class ClockMath {
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29 public:
30 /**
31 * Divide two integers, returning the floor of the quotient.
32 * Unlike the built-in division, this is mathematically
33 * well-behaved. E.g., <code>-1/4</code> => 0 but
34 * <code>floorDivide(-1,4)</code> => -1.
35 * @param numerator the numerator
36 * @param denominator a divisor which must be != 0
37 * @return the floor of the quotient
38 */
39 static int32_t floorDivide(int32_t numerator, int32_t denominator);
40
41 /**
42 * Divide two numbers, returning the floor of the quotient.
43 * Unlike the built-in division, this is mathematically
44 * well-behaved. E.g., <code>-1/4</code> => 0 but
45 * <code>floorDivide(-1,4)</code> => -1.
46 * @param numerator the numerator
47 * @param denominator a divisor which must be != 0
48 * @return the floor of the quotient
49 */
50 static inline double floorDivide(double numerator, double denominator);
51
52 /**
53 * Divide two numbers, returning the floor of the quotient and
54 * the modulus remainder. Unlike the built-in division, this is
55 * mathematically well-behaved. E.g., <code>-1/4</code> => 0 and
56 * <code>-1%4</code> => -1, but <code>floorDivide(-1,4)</code> =>
57 * -1 with <code>remainder</code> => 3. NOTE: If numerator is
58 * too large, the returned quotient may overflow.
59 * @param numerator the numerator
60 * @param denominator a divisor which must be != 0
61 * @param remainder output parameter to receive the
62 * remainder. Unlike <code>numerator % denominator</code>, this
63 * will always be non-negative, in the half-open range <code>[0,
64 * |denominator|)</code>.
65 * @return the floor of the quotient
66 */
67 static int32_t floorDivide(double numerator, int32_t denominator,
68 int32_t& remainder);
69
70 /**
71 * For a positive divisor, return the quotient and remainder
72 * such that dividend = quotient*divisor + remainder and
73 * 0 <= remainder < divisor.
74 *
75 * Works around edge-case bugs. Handles pathological input
76 * (divident >> divisor) reasonably.
77 *
78 * Calling with a divisor <= 0 is disallowed.
79 */
80 static double floorDivide(double dividend, double divisor,
81 double& remainder);
82};
83
84// Useful millisecond constants
85#define kOneDay (1.0 * U_MILLIS_PER_DAY) // 86,400,000
86#define kOneHour (60*60*1000)
87#define kOneMinute 60000
88#define kOneSecond 1000
89#define kOneMillisecond 1
90#define kOneWeek (7.0 * kOneDay) // 604,800,000
91
92// Epoch constants
93#define kJan1_1JulianDay 1721426 // January 1, year 1 (Gregorian)
94
95#define kEpochStartAsJulianDay 2440588 // January 1, 1970 (Gregorian)
96
97#define kEpochYear 1970
98
99
100#define kEarliestViableMillis -185331720384000000.0 // minimum representable by julian day -1e17
101
102#define kLatestViableMillis 185753453990400000.0 // max representable by julian day +1e17
103
104/**
105 * The minimum supported Julian day. This value is equivalent to
106 * MIN_MILLIS.
107 */
108#define MIN_JULIAN (-0x7F000000)
109
110/**
111 * The minimum supported epoch milliseconds. This value is equivalent
112 * to MIN_JULIAN.
113 */
114#define MIN_MILLIS ((MIN_JULIAN - kEpochStartAsJulianDay) * kOneDay)
115
116/**
117 * The maximum supported Julian day. This value is equivalent to
118 * MAX_MILLIS.
119 */
120#define MAX_JULIAN (+0x7F000000)
121
122/**
123 * The maximum supported epoch milliseconds. This value is equivalent
124 * to MAX_JULIAN.
125 */
126#define MAX_MILLIS ((MAX_JULIAN - kEpochStartAsJulianDay) * kOneDay)
127
128/**
129 * A utility class providing proleptic Gregorian calendar functions
130 * used by time zone and calendar code. Do not instantiate.
131 *
132 * Note: Unlike GregorianCalendar, all computations performed by this
133 * class occur in the pure proleptic GregorianCalendar.
134 */
73c04bcf 135class Grego {
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136 public:
137 /**
138 * Return TRUE if the given year is a leap year.
139 * @param year Gregorian year, with 0 == 1 BCE, -1 == 2 BCE, etc.
140 * @return TRUE if the year is a leap year
141 */
142 static inline UBool isLeapYear(int32_t year);
143
144 /**
145 * Return the number of days in the given month.
146 * @param year Gregorian year, with 0 == 1 BCE, -1 == 2 BCE, etc.
147 * @param month 0-based month, with 0==Jan
148 * @return the number of days in the given month
149 */
150 static inline int8_t monthLength(int32_t year, int32_t month);
151
152 /**
153 * Return the length of a previous month of the Gregorian calendar.
154 * @param y the extended year
155 * @param m the 0-based month number
156 * @return the number of days in the month previous to the given month
157 */
158 static inline int8_t previousMonthLength(int y, int m);
159
160 /**
161 * Convert a year, month, and day-of-month, given in the proleptic
162 * Gregorian calendar, to 1970 epoch days.
163 * @param year Gregorian year, with 0 == 1 BCE, -1 == 2 BCE, etc.
164 * @param month 0-based month, with 0==Jan
165 * @param dom 1-based day of month
166 * @return the day number, with day 0 == Jan 1 1970
167 */
168 static double fieldsToDay(int32_t year, int32_t month, int32_t dom);
169
170 /**
171 * Convert a 1970-epoch day number to proleptic Gregorian year,
172 * month, day-of-month, and day-of-week.
173 * @param day 1970-epoch day (integral value)
174 * @param year output parameter to receive year
175 * @param month output parameter to receive month (0-based, 0==Jan)
176 * @param dom output parameter to receive day-of-month (1-based)
177 * @param dow output parameter to receive day-of-week (1-based, 1==Sun)
178 * @param doy output parameter to receive day-of-year (1-based)
179 */
180 static void dayToFields(double day, int32_t& year, int32_t& month,
181 int32_t& dom, int32_t& dow, int32_t& doy);
182
183 /**
184 * Convert a 1970-epoch day number to proleptic Gregorian year,
185 * month, day-of-month, and day-of-week.
186 * @param day 1970-epoch day (integral value)
187 * @param year output parameter to receive year
188 * @param month output parameter to receive month (0-based, 0==Jan)
189 * @param dom output parameter to receive day-of-month (1-based)
190 * @param dow output parameter to receive day-of-week (1-based, 1==Sun)
191 */
192 static inline void dayToFields(double day, int32_t& year, int32_t& month,
193 int32_t& dom, int32_t& dow);
194
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195 /**
196 * Convert a 1970-epoch milliseconds to proleptic Gregorian year,
197 * month, day-of-month, and day-of-week, day of year and millis-in-day.
198 * @param time 1970-epoch milliseconds
199 * @param year output parameter to receive year
200 * @param month output parameter to receive month (0-based, 0==Jan)
201 * @param dom output parameter to receive day-of-month (1-based)
202 * @param dow output parameter to receive day-of-week (1-based, 1==Sun)
203 * @param doy output parameter to receive day-of-year (1-based)
204 * @param mid output parameter to recieve millis-in-day
205 */
206 static void timeToFields(UDate time, int32_t& year, int32_t& month,
207 int32_t& dom, int32_t& dow, int32_t& doy, int32_t& mid);
208
209 /**
210 * Return the day of week on the 1970-epoch day
211 * @param day the 1970-epoch day (integral value)
212 * @return the day of week
213 */
214 static int32_t dayOfWeek(double day);
215
216 /**
217 * Returns the ordinal number for the specified day of week within the month.
218 * The valid return value is 1, 2, 3, 4 or -1.
219 * @param year Gregorian year, with 0 == 1 BCE, -1 == 2 BCE, etc.
220 * @param month 0-based month, with 0==Jan
221 * @param dom 1-based day of month
222 * @return The ordinal number for the specified day of week within the month
223 */
224 static int32_t dayOfWeekInMonth(int32_t year, int32_t month, int32_t dom);
225
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226 /**
227 * Converts Julian day to time as milliseconds.
228 * @param julian the given Julian day number.
229 * @return time as milliseconds.
230 * @internal
231 */
232 static inline double julianDayToMillis(int32_t julian);
233
234 /**
235 * Converts time as milliseconds to Julian day.
236 * @param millis the given milliseconds.
237 * @return the Julian day number.
238 * @internal
239 */
240 static inline int32_t millisToJulianDay(double millis);
241
242 /**
243 * Calculates the Gregorian day shift value for an extended year.
244 * @param eyear Extended year
245 * @returns number of days to ADD to Julian in order to convert from J->G
246 */
247 static inline int32_t gregorianShift(int32_t eyear);
248
249 private:
250 static const int16_t DAYS_BEFORE[24];
251 static const int8_t MONTH_LENGTH[24];
252};
253
729e4ab9 254inline double ClockMath::floorDivide(double numerator, double denominator) {
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255 return uprv_floor(numerator / denominator);
256}
257
258inline UBool Grego::isLeapYear(int32_t year) {
259 // year&0x3 == year%4
260 return ((year&0x3) == 0) && ((year%100 != 0) || (year%400 == 0));
261}
262
263inline int8_t
264Grego::monthLength(int32_t year, int32_t month) {
46f4442e 265 return MONTH_LENGTH[month + (isLeapYear(year) ? 12 : 0)];
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266}
267
268inline int8_t
269Grego::previousMonthLength(int y, int m) {
270 return (m > 0) ? monthLength(y, m-1) : 31;
271}
272
273inline void Grego::dayToFields(double day, int32_t& year, int32_t& month,
274 int32_t& dom, int32_t& dow) {
275 int32_t doy_unused;
276 dayToFields(day,year,month,dom,dow,doy_unused);
277}
278
279inline double Grego::julianDayToMillis(int32_t julian)
280{
281 return (julian - kEpochStartAsJulianDay) * kOneDay;
282}
283
284inline int32_t Grego::millisToJulianDay(double millis) {
729e4ab9 285 return (int32_t) (kEpochStartAsJulianDay + ClockMath::floorDivide(millis, (double)kOneDay));
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286}
287
288inline int32_t Grego::gregorianShift(int32_t eyear) {
289 int32_t y = eyear-1;
729e4ab9 290 int32_t gregShift = ClockMath::floorDivide(y, 400) - ClockMath::floorDivide(y, 100) + 2;
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291 return gregShift;
292}
293
294/**
73c04bcf 295 * This utility class provides convenient access to the data needed for a calendar.
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296 * @internal ICU 3.0
297 */
73c04bcf 298class CalendarData : public UMemory {
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299public:
300 /**
301 * Construct a CalendarData from the given locale.
302 * @param loc locale to use. The 'calendar' keyword will be ignored.
303 * @param type calendar type. NULL indicates the gregorian calendar.
304 * No default lookup is done.
305 * @param status error code
306 */
307 CalendarData(const Locale& loc, const char *type, UErrorCode& status);
308
309 /**
310 * Load data for calendar. Note, this object owns the resources, do NOT call ures_close()!
311 * The ResourceBundle C++ API should NOT be used because it is too slow for a low level API.
312 *
313 * @param key Resource key to data
314 * @param status Error Status
315 * @internal
316 */
317 UResourceBundle* getByKey(const char *key, UErrorCode& status);
318
319 /**
320 * Load data for calendar. Note, this object owns the resources, do NOT call ures_close()!
321 * There is an implicit key of 'format'
322 * data is located in: "calendar/key/format/subKey"
323 * for example, calendar/dayNames/format/abbreviated
324 * The ResourceBundle C++ API should NOT be used because it is too slow for a low level API.
325 *
326 * @param key Resource key to data
327 * @param subKey Resource key to data
328 * @param status Error Status
329 * @internal
330 */
331 UResourceBundle* getByKey2(const char *key, const char *subKey, UErrorCode& status);
332
374ca955 333 /**
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334 * Load data for calendar. Note, this object owns the resources, do NOT call ures_close()!
335 * data is located in: "calendar/key/contextKey/subKey"
336 * for example, calendar/dayNames/standalone/narrow
337 * The ResourceBundle C++ API should NOT be used because it is too slow for a low level API.
374ca955 338 *
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339 * @param key Resource key to data
340 * @param contextKey Resource key to data
341 * @param subKey Resource key to data
342 * @param status Error Status
343 * @internal
374ca955 344 */
73c04bcf 345 UResourceBundle* getByKey3(const char *key, const char *contextKey, const char *subKey, UErrorCode& status);
374ca955 346
73c04bcf 347 ~CalendarData();
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348
349private:
350 void initData(const char *locale, const char *type, UErrorCode& status);
351
352 UResourceBundle *fFillin;
353 UResourceBundle *fOtherFillin;
354 UResourceBundle *fBundle;
355 UResourceBundle *fFallback;
356 CalendarData(); // Not implemented.
357};
358
359U_NAMESPACE_END
360
361#endif // !UCONFIG_NO_FORMATTING
362#endif // GREGOIMP_H
363
364//eof