VirtualBox

source: vbox/trunk/src/VBox/Runtime/time.cpp@ 4725

Last change on this file since 4725 was 4071, checked in by vboxsync, 17 years ago

Biggest check-in ever. New source code headers for all (C) innotek files.

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1/* $Id: time.cpp 4071 2007-08-07 17:07:59Z vboxsync $ */
2/** @file
3 * innotek Portable Runtime - Time.
4 */
5
6/*
7 * Copyright (C) 2006-2007 innotek GmbH
8 *
9 * This file is part of VirtualBox Open Source Edition (OSE), as
10 * available from http://www.virtualbox.org. This file is free software;
11 * you can redistribute it and/or modify it under the terms of the GNU
12 * General Public License as published by the Free Software Foundation,
13 * in version 2 as it comes in the "COPYING" file of the VirtualBox OSE
14 * distribution. VirtualBox OSE is distributed in the hope that it will
15 * be useful, but WITHOUT ANY WARRANTY of any kind.
16 */
17
18
19/*******************************************************************************
20* Header Files *
21*******************************************************************************/
22#define LOG_GROUP RTLOGGROUP_TIME
23#include <iprt/time.h>
24#include <iprt/string.h>
25#include <iprt/assert.h>
26#include "internal/time.h"
27
28
29/*******************************************************************************
30* Defined Constants And Macros *
31*******************************************************************************/
32/** The max year we possibly could implode. */
33#define RTTIME_MAX_YEAR (292 + 1970)
34/** The min year we possibly could implode. */
35#define RTTIME_MIN_YEAR (-293 + 1970)
36
37/** The max day supported by our time representation. (2262-04-11T23-47-16.854775807) */
38#define RTTIME_MAX_DAY (365*292+71 + 101-1)
39/** The min day supported by our time representation. (1677-09-21T00-12-43.145224192) */
40#define RTTIME_MIN_DAY (365*-293-70 + 264-1)
41
42/** The max nano second into the max day. (2262-04-11T23-47-16.854775807) */
43#define RTTIME_MAX_DAY_NANO ( INT64_C(1000000000) * (23*3600 + 47*60 + 16) + 854775807 )
44/** The min nano second into the min day. (1677-09-21T00-12-43.145224192) */
45#define RTTIME_MIN_DAY_NANO ( INT64_C(1000000000) * (00*3600 + 12*60 + 43) + 145224192 )
46
47
48/*******************************************************************************
49* Global Variables *
50*******************************************************************************/
51/**
52 * Days per month in a common year.
53 */
54static const uint8_t g_acDaysInMonths[12] =
55{
56 /*Jan Feb Mar Arp May Jun Jul Aug Sep Oct Nov Dec */
57 31, 28, 31, 30, 31, 30, 31, 31, 30, 31, 30, 31
58};
59
60/**
61 * Days per month in a leap year.
62 */
63static const uint8_t g_acDaysInMonthsLeap[12] =
64{
65 /*Jan Feb Mar Arp May Jun Jul Aug Sep Oct Nov Dec */
66 31, 29, 31, 30, 31, 30, 31, 31, 30, 31, 30, 31
67};
68
69/**
70 * The day of year for each month in a common year.
71 */
72static const uint16_t g_aiDayOfYear[12 + 1] =
73{
74 1, /* Jan */
75 1+31, /* Feb */
76 1+31+28, /* Mar */
77 1+31+28+31, /* Apr */
78 1+31+28+31+30, /* May */
79 1+31+28+31+30+31, /* Jun */
80 1+31+28+31+30+31+30, /* Jul */
81 1+31+28+31+30+31+30+31, /* Aug */
82 1+31+28+31+30+31+30+31+31, /* Sep */
83 1+31+28+31+30+31+30+31+31+30, /* Oct */
84 1+31+28+31+30+31+30+31+31+30+31, /* Nov */
85 1+31+28+31+30+31+30+31+31+30+31+30, /* Dec */
86 1+31+28+31+30+31+30+31+31+30+31+30+31
87};
88
89/**
90 * The day of year for each month in a leap year.
91 */
92static const uint16_t g_aiDayOfYearLeap[12 + 1] =
93{
94 1, /* Jan */
95 1+31, /* Feb */
96 1+31+29, /* Mar */
97 1+31+29+31, /* Apr */
98 1+31+29+31+30, /* May */
99 1+31+29+31+30+31, /* Jun */
100 1+31+29+31+30+31+30, /* Jul */
101 1+31+29+31+30+31+30+31, /* Aug */
102 1+31+29+31+30+31+30+31+31, /* Sep */
103 1+31+29+31+30+31+30+31+31+30, /* Oct */
104 1+31+29+31+30+31+30+31+31+30+31, /* Nov */
105 1+31+29+31+30+31+30+31+31+30+31+30, /* Dec */
106 1+31+29+31+30+31+30+31+31+30+31+30+31
107};
108
109/** The index of 1970 in g_aoffYear */
110#define OFF_YEAR_IDX_EPOCH 300
111/** The year of the first index. */
112#define OFF_YEAR_IDX_0_YEAR 1670
113
114/**
115 * The number of days the 1st of january a year is offseted from 1970-01-01.
116 */
117static const int32_t g_aoffYear[] =
118{
119/*1670:*/ 365*-300+-72, 365*-299+-72, 365*-298+-72, 365*-297+-71, 365*-296+-71, 365*-295+-71, 365*-294+-71, 365*-293+-70, 365*-292+-70, 365*-291+-70,
120/*1680:*/ 365*-290+-70, 365*-289+-69, 365*-288+-69, 365*-287+-69, 365*-286+-69, 365*-285+-68, 365*-284+-68, 365*-283+-68, 365*-282+-68, 365*-281+-67,
121/*1690:*/ 365*-280+-67, 365*-279+-67, 365*-278+-67, 365*-277+-66, 365*-276+-66, 365*-275+-66, 365*-274+-66, 365*-273+-65, 365*-272+-65, 365*-271+-65,
122/*1700:*/ 365*-270+-65, 365*-269+-65, 365*-268+-65, 365*-267+-65, 365*-266+-65, 365*-265+-64, 365*-264+-64, 365*-263+-64, 365*-262+-64, 365*-261+-63,
123/*1710:*/ 365*-260+-63, 365*-259+-63, 365*-258+-63, 365*-257+-62, 365*-256+-62, 365*-255+-62, 365*-254+-62, 365*-253+-61, 365*-252+-61, 365*-251+-61,
124/*1720:*/ 365*-250+-61, 365*-249+-60, 365*-248+-60, 365*-247+-60, 365*-246+-60, 365*-245+-59, 365*-244+-59, 365*-243+-59, 365*-242+-59, 365*-241+-58,
125/*1730:*/ 365*-240+-58, 365*-239+-58, 365*-238+-58, 365*-237+-57, 365*-236+-57, 365*-235+-57, 365*-234+-57, 365*-233+-56, 365*-232+-56, 365*-231+-56,
126/*1740:*/ 365*-230+-56, 365*-229+-55, 365*-228+-55, 365*-227+-55, 365*-226+-55, 365*-225+-54, 365*-224+-54, 365*-223+-54, 365*-222+-54, 365*-221+-53,
127/*1750:*/ 365*-220+-53, 365*-219+-53, 365*-218+-53, 365*-217+-52, 365*-216+-52, 365*-215+-52, 365*-214+-52, 365*-213+-51, 365*-212+-51, 365*-211+-51,
128/*1760:*/ 365*-210+-51, 365*-209+-50, 365*-208+-50, 365*-207+-50, 365*-206+-50, 365*-205+-49, 365*-204+-49, 365*-203+-49, 365*-202+-49, 365*-201+-48,
129/*1770:*/ 365*-200+-48, 365*-199+-48, 365*-198+-48, 365*-197+-47, 365*-196+-47, 365*-195+-47, 365*-194+-47, 365*-193+-46, 365*-192+-46, 365*-191+-46,
130/*1780:*/ 365*-190+-46, 365*-189+-45, 365*-188+-45, 365*-187+-45, 365*-186+-45, 365*-185+-44, 365*-184+-44, 365*-183+-44, 365*-182+-44, 365*-181+-43,
131/*1790:*/ 365*-180+-43, 365*-179+-43, 365*-178+-43, 365*-177+-42, 365*-176+-42, 365*-175+-42, 365*-174+-42, 365*-173+-41, 365*-172+-41, 365*-171+-41,
132/*1800:*/ 365*-170+-41, 365*-169+-41, 365*-168+-41, 365*-167+-41, 365*-166+-41, 365*-165+-40, 365*-164+-40, 365*-163+-40, 365*-162+-40, 365*-161+-39,
133/*1810:*/ 365*-160+-39, 365*-159+-39, 365*-158+-39, 365*-157+-38, 365*-156+-38, 365*-155+-38, 365*-154+-38, 365*-153+-37, 365*-152+-37, 365*-151+-37,
134/*1820:*/ 365*-150+-37, 365*-149+-36, 365*-148+-36, 365*-147+-36, 365*-146+-36, 365*-145+-35, 365*-144+-35, 365*-143+-35, 365*-142+-35, 365*-141+-34,
135/*1830:*/ 365*-140+-34, 365*-139+-34, 365*-138+-34, 365*-137+-33, 365*-136+-33, 365*-135+-33, 365*-134+-33, 365*-133+-32, 365*-132+-32, 365*-131+-32,
136/*1840:*/ 365*-130+-32, 365*-129+-31, 365*-128+-31, 365*-127+-31, 365*-126+-31, 365*-125+-30, 365*-124+-30, 365*-123+-30, 365*-122+-30, 365*-121+-29,
137/*1850:*/ 365*-120+-29, 365*-119+-29, 365*-118+-29, 365*-117+-28, 365*-116+-28, 365*-115+-28, 365*-114+-28, 365*-113+-27, 365*-112+-27, 365*-111+-27,
138/*1860:*/ 365*-110+-27, 365*-109+-26, 365*-108+-26, 365*-107+-26, 365*-106+-26, 365*-105+-25, 365*-104+-25, 365*-103+-25, 365*-102+-25, 365*-101+-24,
139/*1870:*/ 365*-100+-24, 365* -99+-24, 365* -98+-24, 365* -97+-23, 365* -96+-23, 365* -95+-23, 365* -94+-23, 365* -93+-22, 365* -92+-22, 365* -91+-22,
140/*1880:*/ 365* -90+-22, 365* -89+-21, 365* -88+-21, 365* -87+-21, 365* -86+-21, 365* -85+-20, 365* -84+-20, 365* -83+-20, 365* -82+-20, 365* -81+-19,
141/*1890:*/ 365* -80+-19, 365* -79+-19, 365* -78+-19, 365* -77+-18, 365* -76+-18, 365* -75+-18, 365* -74+-18, 365* -73+-17, 365* -72+-17, 365* -71+-17,
142/*1900:*/ 365* -70+-17, 365* -69+-17, 365* -68+-17, 365* -67+-17, 365* -66+-17, 365* -65+-16, 365* -64+-16, 365* -63+-16, 365* -62+-16, 365* -61+-15,
143/*1910:*/ 365* -60+-15, 365* -59+-15, 365* -58+-15, 365* -57+-14, 365* -56+-14, 365* -55+-14, 365* -54+-14, 365* -53+-13, 365* -52+-13, 365* -51+-13,
144/*1920:*/ 365* -50+-13, 365* -49+-12, 365* -48+-12, 365* -47+-12, 365* -46+-12, 365* -45+-11, 365* -44+-11, 365* -43+-11, 365* -42+-11, 365* -41+-10,
145/*1930:*/ 365* -40+-10, 365* -39+-10, 365* -38+-10, 365* -37+-9 , 365* -36+-9 , 365* -35+-9 , 365* -34+-9 , 365* -33+-8 , 365* -32+-8 , 365* -31+-8 ,
146/*1940:*/ 365* -30+-8 , 365* -29+-7 , 365* -28+-7 , 365* -27+-7 , 365* -26+-7 , 365* -25+-6 , 365* -24+-6 , 365* -23+-6 , 365* -22+-6 , 365* -21+-5 ,
147/*1950:*/ 365* -20+-5 , 365* -19+-5 , 365* -18+-5 , 365* -17+-4 , 365* -16+-4 , 365* -15+-4 , 365* -14+-4 , 365* -13+-3 , 365* -12+-3 , 365* -11+-3 ,
148/*1960:*/ 365* -10+-3 , 365* -9+-2 , 365* -8+-2 , 365* -7+-2 , 365* -6+-2 , 365* -5+-1 , 365* -4+-1 , 365* -3+-1 , 365* -2+-1 , 365* -1+0 ,
149/*1970:*/ 365* 0+0 , 365* 1+0 , 365* 2+0 , 365* 3+1 , 365* 4+1 , 365* 5+1 , 365* 6+1 , 365* 7+2 , 365* 8+2 , 365* 9+2 ,
150/*1980:*/ 365* 10+2 , 365* 11+3 , 365* 12+3 , 365* 13+3 , 365* 14+3 , 365* 15+4 , 365* 16+4 , 365* 17+4 , 365* 18+4 , 365* 19+5 ,
151/*1990:*/ 365* 20+5 , 365* 21+5 , 365* 22+5 , 365* 23+6 , 365* 24+6 , 365* 25+6 , 365* 26+6 , 365* 27+7 , 365* 28+7 , 365* 29+7 ,
152/*2000:*/ 365* 30+7 , 365* 31+8 , 365* 32+8 , 365* 33+8 , 365* 34+8 , 365* 35+9 , 365* 36+9 , 365* 37+9 , 365* 38+9 , 365* 39+10 ,
153/*2010:*/ 365* 40+10 , 365* 41+10 , 365* 42+10 , 365* 43+11 , 365* 44+11 , 365* 45+11 , 365* 46+11 , 365* 47+12 , 365* 48+12 , 365* 49+12 ,
154/*2020:*/ 365* 50+12 , 365* 51+13 , 365* 52+13 , 365* 53+13 , 365* 54+13 , 365* 55+14 , 365* 56+14 , 365* 57+14 , 365* 58+14 , 365* 59+15 ,
155/*2030:*/ 365* 60+15 , 365* 61+15 , 365* 62+15 , 365* 63+16 , 365* 64+16 , 365* 65+16 , 365* 66+16 , 365* 67+17 , 365* 68+17 , 365* 69+17 ,
156/*2040:*/ 365* 70+17 , 365* 71+18 , 365* 72+18 , 365* 73+18 , 365* 74+18 , 365* 75+19 , 365* 76+19 , 365* 77+19 , 365* 78+19 , 365* 79+20 ,
157/*2050:*/ 365* 80+20 , 365* 81+20 , 365* 82+20 , 365* 83+21 , 365* 84+21 , 365* 85+21 , 365* 86+21 , 365* 87+22 , 365* 88+22 , 365* 89+22 ,
158/*2060:*/ 365* 90+22 , 365* 91+23 , 365* 92+23 , 365* 93+23 , 365* 94+23 , 365* 95+24 , 365* 96+24 , 365* 97+24 , 365* 98+24 , 365* 99+25 ,
159/*2070:*/ 365* 100+25 , 365* 101+25 , 365* 102+25 , 365* 103+26 , 365* 104+26 , 365* 105+26 , 365* 106+26 , 365* 107+27 , 365* 108+27 , 365* 109+27 ,
160/*2080:*/ 365* 110+27 , 365* 111+28 , 365* 112+28 , 365* 113+28 , 365* 114+28 , 365* 115+29 , 365* 116+29 , 365* 117+29 , 365* 118+29 , 365* 119+30 ,
161/*2090:*/ 365* 120+30 , 365* 121+30 , 365* 122+30 , 365* 123+31 , 365* 124+31 , 365* 125+31 , 365* 126+31 , 365* 127+32 , 365* 128+32 , 365* 129+32 ,
162/*2100:*/ 365* 130+32 , 365* 131+32 , 365* 132+32 , 365* 133+32 , 365* 134+32 , 365* 135+33 , 365* 136+33 , 365* 137+33 , 365* 138+33 , 365* 139+34 ,
163/*2110:*/ 365* 140+34 , 365* 141+34 , 365* 142+34 , 365* 143+35 , 365* 144+35 , 365* 145+35 , 365* 146+35 , 365* 147+36 , 365* 148+36 , 365* 149+36 ,
164/*2120:*/ 365* 150+36 , 365* 151+37 , 365* 152+37 , 365* 153+37 , 365* 154+37 , 365* 155+38 , 365* 156+38 , 365* 157+38 , 365* 158+38 , 365* 159+39 ,
165/*2130:*/ 365* 160+39 , 365* 161+39 , 365* 162+39 , 365* 163+40 , 365* 164+40 , 365* 165+40 , 365* 166+40 , 365* 167+41 , 365* 168+41 , 365* 169+41 ,
166/*2140:*/ 365* 170+41 , 365* 171+42 , 365* 172+42 , 365* 173+42 , 365* 174+42 , 365* 175+43 , 365* 176+43 , 365* 177+43 , 365* 178+43 , 365* 179+44 ,
167/*2150:*/ 365* 180+44 , 365* 181+44 , 365* 182+44 , 365* 183+45 , 365* 184+45 , 365* 185+45 , 365* 186+45 , 365* 187+46 , 365* 188+46 , 365* 189+46 ,
168/*2160:*/ 365* 190+46 , 365* 191+47 , 365* 192+47 , 365* 193+47 , 365* 194+47 , 365* 195+48 , 365* 196+48 , 365* 197+48 , 365* 198+48 , 365* 199+49 ,
169/*2170:*/ 365* 200+49 , 365* 201+49 , 365* 202+49 , 365* 203+50 , 365* 204+50 , 365* 205+50 , 365* 206+50 , 365* 207+51 , 365* 208+51 , 365* 209+51 ,
170/*2180:*/ 365* 210+51 , 365* 211+52 , 365* 212+52 , 365* 213+52 , 365* 214+52 , 365* 215+53 , 365* 216+53 , 365* 217+53 , 365* 218+53 , 365* 219+54 ,
171/*2190:*/ 365* 220+54 , 365* 221+54 , 365* 222+54 , 365* 223+55 , 365* 224+55 , 365* 225+55 , 365* 226+55 , 365* 227+56 , 365* 228+56 , 365* 229+56 ,
172/*2200:*/ 365* 230+56 , 365* 231+56 , 365* 232+56 , 365* 233+56 , 365* 234+56 , 365* 235+57 , 365* 236+57 , 365* 237+57 , 365* 238+57 , 365* 239+58 ,
173/*2210:*/ 365* 240+58 , 365* 241+58 , 365* 242+58 , 365* 243+59 , 365* 244+59 , 365* 245+59 , 365* 246+59 , 365* 247+60 , 365* 248+60 , 365* 249+60 ,
174/*2220:*/ 365* 250+60 , 365* 251+61 , 365* 252+61 , 365* 253+61 , 365* 254+61 , 365* 255+62 , 365* 256+62 , 365* 257+62 , 365* 258+62 , 365* 259+63 ,
175/*2230:*/ 365* 260+63 , 365* 261+63 , 365* 262+63 , 365* 263+64 , 365* 264+64 , 365* 265+64 , 365* 266+64 , 365* 267+65 , 365* 268+65 , 365* 269+65 ,
176/*2240:*/ 365* 270+65 , 365* 271+66 , 365* 272+66 , 365* 273+66 , 365* 274+66 , 365* 275+67 , 365* 276+67 , 365* 277+67 , 365* 278+67 , 365* 279+68 ,
177/*2250:*/ 365* 280+68 , 365* 281+68 , 365* 282+68 , 365* 283+69 , 365* 284+69 , 365* 285+69 , 365* 286+69 , 365* 287+70 , 365* 288+70 , 365* 289+70 ,
178/*2260:*/ 365* 290+70 , 365* 291+71 , 365* 292+71 , 365* 293+71 , 365* 294+71 , 365* 295+72 , 365* 296+72 , 365* 297+72 , 365* 298+72 , 365* 299+73
179};
180
181/* generator code:
182#include <stdio.h>
183bool isLeapYear(int iYear)
184{
185 return iYear % 4 == 0 && (iYear % 100 != 0 || iYear % 400 == 0);
186}
187void printYear(int iYear, int iLeap)
188{
189 if (!(iYear % 10))
190 printf("\n/" "*%d:*" "/", iYear + 1970);
191 printf(" 365*%4d+%-3d,", iYear, iLeap);
192}
193int main()
194{
195 int iYear = 0;
196 int iLeap = 0;
197 while (iYear > -300)
198 iLeap -= isLeapYear(1970 + --iYear);
199 while (iYear < 300)
200 {
201 printYear(iYear, iLeap);
202 iLeap += isLeapYear(1970 + iYear++);
203 }
204 printf("\n");
205 return 0;
206}
207*/
208
209
210/**
211 * Checks if a year is a leap year or not.
212 *
213 * @returns true if it's a leap year.
214 * @returns false if it's a common year.
215 * @param i32Year The year in question.
216 */
217DECLINLINE(bool) rtTimeIsLeapYear(int32_t i32Year)
218{
219 return i32Year % 4 == 0
220 && ( i32Year % 100 != 0
221 || i32Year % 400 == 0);
222}
223
224/**
225 * Checks if a year is a leap year or not.
226 *
227 * @returns true if it's a leap year.
228 * @returns false if it's a common year.
229 * @param i32Year The year in question.
230 */
231RTDECL(bool) RTTimeIsLeapYear(int32_t i32Year)
232{
233 return rtTimeIsLeapYear(i32Year);
234}
235
236
237/**
238 * Explodes a time spec (UTC).
239 *
240 * @returns pTime.
241 * @param pTime Where to store the exploded time.
242 * @param pTimeSpec The time spec to exploded.
243 */
244RTDECL(PRTTIME) RTTimeExplode(PRTTIME pTime, PCRTTIMESPEC pTimeSpec)
245{
246 AssertMsg(VALID_PTR(pTime), ("%p\n", pTime));
247 AssertMsg(VALID_PTR(pTimeSpec), ("%p\n", pTime));
248
249 /*
250 * The simple stuff first.
251 */
252 pTime->fFlags = RTTIME_FLAGS_TYPE_UTC;
253 int64_t i64Div = pTimeSpec->i64NanosecondsRelativeToUnixEpoch;
254 int32_t i32Rem = (int32_t)(i64Div % 1000000000);
255 i64Div /= 1000000000;
256 if (i32Rem < 0)
257 {
258 i32Rem += 1000000000;
259 i64Div--;
260 }
261 pTime->u32Nanosecond = i32Rem;
262
263 /* second */
264 i32Rem = (int32_t)(i64Div % 60);
265 i64Div /= 60;
266 if (i32Rem < 0)
267 {
268 i32Rem += 60;
269 i64Div--;
270 }
271 pTime->u8Second = i32Rem;
272
273 /* minute */
274 int32_t i32Div = (int32_t)i64Div; /* 60,000,000,000 > 33bit, so 31bit suffices. */
275 i32Rem = i32Div % 60;
276 i32Div /= 60;
277 if (i32Rem < 0)
278 {
279 i32Rem += 60;
280 i32Div--;
281 }
282 pTime->u8Minute = i32Rem;
283
284 /* hour */
285 i32Rem = i32Div % 24;
286 i32Div /= 24; /* days relative to 1970-01-01 */
287 if (i32Rem < 0)
288 {
289 i32Rem += 24;
290 i32Div--;
291 }
292 pTime->u8Hour = i32Rem;
293
294 /* weekday - 1970-01-01 was a Thursday (3) */
295 pTime->u8WeekDay = (uint32_t)(i32Div + 3) % 7;
296
297 /*
298 * We've now got a number of days relative to 1970-01-01.
299 * To get the correct year number we have to mess with leap years. Fortunatly,
300 * the represenation we've got only supports a few hundred years, so we can
301 * generate a table and perform a simple two way search from the modulus 365 derived.
302 */
303 unsigned iYear = OFF_YEAR_IDX_EPOCH + i32Div / 365;
304 while (g_aoffYear[iYear + 1] <= i32Div)
305 iYear++;
306 while (g_aoffYear[iYear] > i32Div)
307 iYear--;
308 pTime->i32Year = iYear + OFF_YEAR_IDX_0_YEAR;
309 i32Div -= g_aoffYear[iYear];
310 pTime->u16YearDay = i32Div + 1;
311
312 /*
313 * Figuring out the month is done in a manner similar to the year, only here we
314 * ensure that the index is matching or too small.
315 */
316 const uint16_t *paiDayOfYear;
317 if (rtTimeIsLeapYear(pTime->i32Year))
318 {
319 pTime->fFlags |= RTTIME_FLAGS_LEAP_YEAR;
320 paiDayOfYear = &g_aiDayOfYearLeap[0];
321 }
322 else
323 {
324 pTime->fFlags |= RTTIME_FLAGS_COMMON_YEAR;
325 paiDayOfYear = &g_aiDayOfYear[0];
326 }
327 int iMonth = i32Div / 32;
328 i32Div++;
329 while (paiDayOfYear[iMonth + 1] <= i32Div)
330 iMonth++;
331 pTime->u8Month = iMonth + 1;
332 i32Div -= paiDayOfYear[iMonth];
333 pTime->u8MonthDay = i32Div + 1;
334
335 return pTime;
336}
337
338
339/**
340 * Implodes exploded time to a time spec (UTC).
341 *
342 * @returns pTime on success.
343 * @returns NULL if the pTime data is invalid.
344 * @param pTimeSpec Where to store the imploded UTC time.
345 * If pTime specifies a time which outside the range, maximum or
346 * minimum values will be returned.
347 * @param pTime Pointer to the exploded time to implode.
348 * The fields u8Month, u8WeekDay and u8MonthDay are not used,
349 * and all the other fields are expected to be within their
350 * bounds. Use RTTimeNormalize() to calculate u16YearDay and
351 * normalize the ranges of the fields.
352 */
353RTDECL(PRTTIMESPEC) RTTimeImplode(PRTTIMESPEC pTimeSpec, PCRTTIME pTime)
354{
355 /*
356 * Validate input.
357 */
358 AssertReturn(VALID_PTR(pTimeSpec), NULL);
359 AssertReturn(VALID_PTR(pTime), NULL);
360 AssertReturn(pTime->u32Nanosecond < 1000000000, NULL);
361 AssertReturn(pTime->u8Second < 60, NULL);
362 AssertReturn(pTime->u8Minute < 60, NULL);
363 AssertReturn(pTime->u8Hour < 24, NULL);
364 AssertReturn(pTime->u16YearDay >= 1, NULL);
365 AssertReturn(pTime->u16YearDay <= (rtTimeIsLeapYear(pTime->i32Year) ? 366 : 365), NULL);
366 AssertMsgReturn(pTime->i32Year <= RTTIME_MAX_YEAR && pTime->i32Year >= RTTIME_MIN_YEAR, ("%RI32\n", pTime->i32Year), NULL);
367
368 /*
369 * Do the conversion to nanoseconds.
370 */
371 int32_t i32Days = g_aoffYear[pTime->i32Year - OFF_YEAR_IDX_0_YEAR]
372 + pTime->u16YearDay - 1;
373 AssertMsgReturn(i32Days <= RTTIME_MAX_DAY && i32Days >= RTTIME_MIN_DAY, ("%RI32\n", i32Days), NULL);
374
375 uint32_t u32Secs = pTime->u8Second
376 + pTime->u8Minute * 60
377 + pTime->u8Hour * 3600;
378 int64_t i64Nanos = (uint64_t)pTime->u32Nanosecond
379 + u32Secs * UINT64_C(1000000000);
380 AssertMsgReturn(i32Days != RTTIME_MAX_DAY || i64Nanos <= RTTIME_MAX_DAY_NANO, ("%RI64\n", i64Nanos), NULL);
381 AssertMsgReturn(i32Days != RTTIME_MIN_DAY || i64Nanos >= RTTIME_MIN_DAY_NANO, ("%RI64\n", i64Nanos), NULL);
382
383 i64Nanos += i32Days * UINT64_C(86400000000000);
384
385 pTimeSpec->i64NanosecondsRelativeToUnixEpoch = i64Nanos;
386 return pTimeSpec;
387}
388
389
390/**
391 * Normalizes the fields of a timestructure.
392 *
393 * It is possible to calculate month/day fields in some
394 * combinations. It's also possible to overflow other
395 * fields, and these overflows will be adjusted for.
396 *
397 * @returns pTime on success.
398 * @returns NULL if the data is invalid.
399 * @param pTime The time structure to normalize.
400 */
401RTDECL(PRTTIME) RTTimeNormalize(PRTTIME pTime)
402{
403 /** @todo */
404 return NULL;
405}
406
407
408/**
409 * Converts a time spec to a ISO date string.
410 *
411 * @returns psz on success.
412 * @returns NULL on buffer underflow.
413 * @param pTime The time. Caller should've normalized this.
414 * @param psz Where to store the string.
415 * @param cb The size of the buffer.
416 */
417RTDECL(char *) RTTimeToString(PCRTTIME pTime, char *psz, size_t cb)
418{
419 size_t cch = RTStrPrintf(psz, cb, "%RI32-%02u-%02uT%02u:%02u:%02u.%09RU32Z",
420 pTime->i32Year, pTime->u8Month, pTime->u8MonthDay,
421 pTime->u8Hour, pTime->u8Minute, pTime->u8Second, pTime->u32Nanosecond);
422 if ( cch <= 1
423 || psz[cch - 1] != 'Z')
424 return NULL;
425 return psz;
426}
427
428
429/**
430 * Converts a time spec to a ISO date string.
431 *
432 * @returns psz on success.
433 * @returns NULL on buffer underflow.
434 * @param pTime The time spec.
435 * @param psz Where to store the string.
436 * @param cb The size of the buffer.
437 */
438RTDECL(char *) RTTimeSpecToString(PCRTTIMESPEC pTime, char *psz, size_t cb)
439{
440 RTTIME Time;
441 return RTTimeToString(RTTimeExplode(&Time, pTime), psz, cb);
442}
443
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