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Diffstat (limited to 'infrastructure/rhino1_7R1/src/org/mozilla/javascript/NativeDate.java')
| -rw-r--r-- | infrastructure/rhino1_7R1/src/org/mozilla/javascript/NativeDate.java | 1604 |
1 files changed, 1604 insertions, 0 deletions
diff --git a/infrastructure/rhino1_7R1/src/org/mozilla/javascript/NativeDate.java b/infrastructure/rhino1_7R1/src/org/mozilla/javascript/NativeDate.java new file mode 100644 index 0000000..75d41ab --- /dev/null +++ b/infrastructure/rhino1_7R1/src/org/mozilla/javascript/NativeDate.java @@ -0,0 +1,1604 @@ +/* -*- Mode: java; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 4 -*- + * + * ***** BEGIN LICENSE BLOCK ***** + * Version: MPL 1.1/GPL 2.0 + * + * The contents of this file are subject to the Mozilla Public License Version + * 1.1 (the "License"); you may not use this file except in compliance with + * the License. You may obtain a copy of the License at + * http://www.mozilla.org/MPL/ + * + * Software distributed under the License is distributed on an "AS IS" basis, + * WITHOUT WARRANTY OF ANY KIND, either express or implied. See the License + * for the specific language governing rights and limitations under the + * License. + * + * The Original Code is Rhino code, released + * May 6, 1999. + * + * The Initial Developer of the Original Code is + * Netscape Communications Corporation. + * Portions created by the Initial Developer are Copyright (C) 1997-1999 + * the Initial Developer. All Rights Reserved. + * + * Contributor(s): + * Peter Annema + * Norris Boyd + * Mike McCabe + * Ilya Frank + * + * + * Alternatively, the contents of this file may be used under the terms of + * the GNU General Public License Version 2 or later (the "GPL"), in which + * case the provisions of the GPL are applicable instead of those above. If + * you wish to allow use of your version of this file only under the terms of + * the GPL and not to allow others to use your version of this file under the + * MPL, indicate your decision by deleting the provisions above and replacing + * them with the notice and other provisions required by the GPL. If you do + * not delete the provisions above, a recipient may use your version of this + * file under either the MPL or the GPL. + * + * ***** END LICENSE BLOCK ***** */ + +package org.mozilla.javascript; + +import java.util.Date; +import java.text.DateFormat; + +/** + * This class implements the Date native object. + * See ECMA 15.9. + * @author Mike McCabe + */ +final class NativeDate extends IdScriptableObject +{ + static final long serialVersionUID = -8307438915861678966L; + + private static final Object DATE_TAG = new Object(); + + private static final String js_NaN_date_str = "Invalid Date"; + + static void init(Scriptable scope, boolean sealed) + { + NativeDate obj = new NativeDate(); + // Set the value of the prototype Date to NaN ('invalid date'); + obj.date = ScriptRuntime.NaN; + obj.exportAsJSClass(MAX_PROTOTYPE_ID, scope, sealed); + } + + private NativeDate() + { + if (thisTimeZone == null) { + // j.u.TimeZone is synchronized, so setting class statics from it + // should be OK. + thisTimeZone = java.util.TimeZone.getDefault(); + LocalTZA = thisTimeZone.getRawOffset(); + } + } + + public String getClassName() + { + return "Date"; + } + + public Object getDefaultValue(Class typeHint) + { + if (typeHint == null) + typeHint = ScriptRuntime.StringClass; + return super.getDefaultValue(typeHint); + } + + double getJSTimeValue() + { + return date; + } + + protected void fillConstructorProperties(IdFunctionObject ctor) + { + addIdFunctionProperty(ctor, DATE_TAG, ConstructorId_now, + "now", 0); + addIdFunctionProperty(ctor, DATE_TAG, ConstructorId_parse, + "parse", 1); + addIdFunctionProperty(ctor, DATE_TAG, ConstructorId_UTC, + "UTC", 1); + super.fillConstructorProperties(ctor); + } + + protected void initPrototypeId(int id) + { + String s; + int arity; + switch (id) { + case Id_constructor: arity=1; s="constructor"; break; + case Id_toString: arity=0; s="toString"; break; + case Id_toTimeString: arity=0; s="toTimeString"; break; + case Id_toDateString: arity=0; s="toDateString"; break; + case Id_toLocaleString: arity=0; s="toLocaleString"; break; + case Id_toLocaleTimeString: arity=0; s="toLocaleTimeString"; break; + case Id_toLocaleDateString: arity=0; s="toLocaleDateString"; break; + case Id_toUTCString: arity=0; s="toUTCString"; break; + case Id_toSource: arity=0; s="toSource"; break; + case Id_valueOf: arity=0; s="valueOf"; break; + case Id_getTime: arity=0; s="getTime"; break; + case Id_getYear: arity=0; s="getYear"; break; + case Id_getFullYear: arity=0; s="getFullYear"; break; + case Id_getUTCFullYear: arity=0; s="getUTCFullYear"; break; + case Id_getMonth: arity=0; s="getMonth"; break; + case Id_getUTCMonth: arity=0; s="getUTCMonth"; break; + case Id_getDate: arity=0; s="getDate"; break; + case Id_getUTCDate: arity=0; s="getUTCDate"; break; + case Id_getDay: arity=0; s="getDay"; break; + case Id_getUTCDay: arity=0; s="getUTCDay"; break; + case Id_getHours: arity=0; s="getHours"; break; + case Id_getUTCHours: arity=0; s="getUTCHours"; break; + case Id_getMinutes: arity=0; s="getMinutes"; break; + case Id_getUTCMinutes: arity=0; s="getUTCMinutes"; break; + case Id_getSeconds: arity=0; s="getSeconds"; break; + case Id_getUTCSeconds: arity=0; s="getUTCSeconds"; break; + case Id_getMilliseconds: arity=0; s="getMilliseconds"; break; + case Id_getUTCMilliseconds: arity=0; s="getUTCMilliseconds"; break; + case Id_getTimezoneOffset: arity=0; s="getTimezoneOffset"; break; + case Id_setTime: arity=1; s="setTime"; break; + case Id_setMilliseconds: arity=1; s="setMilliseconds"; break; + case Id_setUTCMilliseconds: arity=1; s="setUTCMilliseconds"; break; + case Id_setSeconds: arity=2; s="setSeconds"; break; + case Id_setUTCSeconds: arity=2; s="setUTCSeconds"; break; + case Id_setMinutes: arity=3; s="setMinutes"; break; + case Id_setUTCMinutes: arity=3; s="setUTCMinutes"; break; + case Id_setHours: arity=4; s="setHours"; break; + case Id_setUTCHours: arity=4; s="setUTCHours"; break; + case Id_setDate: arity=1; s="setDate"; break; + case Id_setUTCDate: arity=1; s="setUTCDate"; break; + case Id_setMonth: arity=2; s="setMonth"; break; + case Id_setUTCMonth: arity=2; s="setUTCMonth"; break; + case Id_setFullYear: arity=3; s="setFullYear"; break; + case Id_setUTCFullYear: arity=3; s="setUTCFullYear"; break; + case Id_setYear: arity=1; s="setYear"; break; + default: throw new IllegalArgumentException(String.valueOf(id)); + } + initPrototypeMethod(DATE_TAG, id, s, arity); + } + + public Object execIdCall(IdFunctionObject f, Context cx, Scriptable scope, + Scriptable thisObj, Object[] args) + { + if (!f.hasTag(DATE_TAG)) { + return super.execIdCall(f, cx, scope, thisObj, args); + } + int id = f.methodId(); + switch (id) { + case ConstructorId_now: + return ScriptRuntime.wrapNumber(now()); + + case ConstructorId_parse: + { + String dataStr = ScriptRuntime.toString(args, 0); + return ScriptRuntime.wrapNumber(date_parseString(dataStr)); + } + + case ConstructorId_UTC: + return ScriptRuntime.wrapNumber(jsStaticFunction_UTC(args)); + + case Id_constructor: + { + // if called as a function, just return a string + // representing the current time. + if (thisObj != null) + return date_format(now(), Id_toString); + return jsConstructor(args); + } + } + + // The rest of Date.prototype methods require thisObj to be Date + + if (!(thisObj instanceof NativeDate)) + throw incompatibleCallError(f); + NativeDate realThis = (NativeDate)thisObj; + double t = realThis.date; + + switch (id) { + + case Id_toString: + case Id_toTimeString: + case Id_toDateString: + if (t == t) { + return date_format(t, id); + } + return js_NaN_date_str; + + case Id_toLocaleString: + case Id_toLocaleTimeString: + case Id_toLocaleDateString: + if (t == t) { + return toLocale_helper(t, id); + } + return js_NaN_date_str; + + case Id_toUTCString: + if (t == t) { + return js_toUTCString(t); + } + return js_NaN_date_str; + + case Id_toSource: + return "(new Date("+ScriptRuntime.toString(t)+"))"; + + case Id_valueOf: + case Id_getTime: + return ScriptRuntime.wrapNumber(t); + + case Id_getYear: + case Id_getFullYear: + case Id_getUTCFullYear: + if (t == t) { + if (id != Id_getUTCFullYear) t = LocalTime(t); + t = YearFromTime(t); + if (id == Id_getYear) { + if (cx.hasFeature(Context.FEATURE_NON_ECMA_GET_YEAR)) { + if (1900 <= t && t < 2000) { + t -= 1900; + } + } else { + t -= 1900; + } + } + } + return ScriptRuntime.wrapNumber(t); + + case Id_getMonth: + case Id_getUTCMonth: + if (t == t) { + if (id == Id_getMonth) t = LocalTime(t); + t = MonthFromTime(t); + } + return ScriptRuntime.wrapNumber(t); + + case Id_getDate: + case Id_getUTCDate: + if (t == t) { + if (id == Id_getDate) t = LocalTime(t); + t = DateFromTime(t); + } + return ScriptRuntime.wrapNumber(t); + + case Id_getDay: + case Id_getUTCDay: + if (t == t) { + if (id == Id_getDay) t = LocalTime(t); + t = WeekDay(t); + } + return ScriptRuntime.wrapNumber(t); + + case Id_getHours: + case Id_getUTCHours: + if (t == t) { + if (id == Id_getHours) t = LocalTime(t); + t = HourFromTime(t); + } + return ScriptRuntime.wrapNumber(t); + + case Id_getMinutes: + case Id_getUTCMinutes: + if (t == t) { + if (id == Id_getMinutes) t = LocalTime(t); + t = MinFromTime(t); + } + return ScriptRuntime.wrapNumber(t); + + case Id_getSeconds: + case Id_getUTCSeconds: + if (t == t) { + if (id == Id_getSeconds) t = LocalTime(t); + t = SecFromTime(t); + } + return ScriptRuntime.wrapNumber(t); + + case Id_getMilliseconds: + case Id_getUTCMilliseconds: + if (t == t) { + if (id == Id_getMilliseconds) t = LocalTime(t); + t = msFromTime(t); + } + return ScriptRuntime.wrapNumber(t); + + case Id_getTimezoneOffset: + if (t == t) { + t = (t - LocalTime(t)) / msPerMinute; + } + return ScriptRuntime.wrapNumber(t); + + case Id_setTime: + t = TimeClip(ScriptRuntime.toNumber(args, 0)); + realThis.date = t; + return ScriptRuntime.wrapNumber(t); + + case Id_setMilliseconds: + case Id_setUTCMilliseconds: + case Id_setSeconds: + case Id_setUTCSeconds: + case Id_setMinutes: + case Id_setUTCMinutes: + case Id_setHours: + case Id_setUTCHours: + t = makeTime(t, args, id); + realThis.date = t; + return ScriptRuntime.wrapNumber(t); + + case Id_setDate: + case Id_setUTCDate: + case Id_setMonth: + case Id_setUTCMonth: + case Id_setFullYear: + case Id_setUTCFullYear: + t = makeDate(t, args, id); + realThis.date = t; + return ScriptRuntime.wrapNumber(t); + + case Id_setYear: + { + double year = ScriptRuntime.toNumber(args, 0); + + if (year != year || Double.isInfinite(year)) { + t = ScriptRuntime.NaN; + } else { + if (t != t) { + t = 0; + } else { + t = LocalTime(t); + } + + if (year >= 0 && year <= 99) + year += 1900; + + double day = MakeDay(year, MonthFromTime(t), + DateFromTime(t)); + t = MakeDate(day, TimeWithinDay(t)); + t = internalUTC(t); + t = TimeClip(t); + } + } + realThis.date = t; + return ScriptRuntime.wrapNumber(t); + + default: throw new IllegalArgumentException(String.valueOf(id)); + } + + } + + /* ECMA helper functions */ + + private static final double HalfTimeDomain = 8.64e15; + private static final double HoursPerDay = 24.0; + private static final double MinutesPerHour = 60.0; + private static final double SecondsPerMinute = 60.0; + private static final double msPerSecond = 1000.0; + private static final double MinutesPerDay = (HoursPerDay * MinutesPerHour); + private static final double SecondsPerDay = (MinutesPerDay * SecondsPerMinute); + private static final double SecondsPerHour = (MinutesPerHour * SecondsPerMinute); + private static final double msPerDay = (SecondsPerDay * msPerSecond); + private static final double msPerHour = (SecondsPerHour * msPerSecond); + private static final double msPerMinute = (SecondsPerMinute * msPerSecond); + + private static double Day(double t) + { + return Math.floor(t / msPerDay); + } + + private static double TimeWithinDay(double t) + { + double result; + result = t % msPerDay; + if (result < 0) + result += msPerDay; + return result; + } + + private static boolean IsLeapYear(int year) + { + return year % 4 == 0 && (year % 100 != 0 || year % 400 == 0); + } + + /* math here has to be f.p, because we need + * floor((1968 - 1969) / 4) == -1 + */ + private static double DayFromYear(double y) + { + return ((365 * ((y)-1970) + Math.floor(((y)-1969)/4.0) + - Math.floor(((y)-1901)/100.0) + Math.floor(((y)-1601)/400.0))); + } + + private static double TimeFromYear(double y) + { + return DayFromYear(y) * msPerDay; + } + + private static int YearFromTime(double t) + { + int lo = (int) Math.floor((t / msPerDay) / 366) + 1970; + int hi = (int) Math.floor((t / msPerDay) / 365) + 1970; + int mid; + + /* above doesn't work for negative dates... */ + if (hi < lo) { + int temp = lo; + lo = hi; + hi = temp; + } + + /* Use a simple binary search algorithm to find the right + year. This seems like brute force... but the computation + of hi and lo years above lands within one year of the + correct answer for years within a thousand years of + 1970; the loop below only requires six iterations + for year 270000. */ + while (hi > lo) { + mid = (hi + lo) / 2; + if (TimeFromYear(mid) > t) { + hi = mid - 1; + } else { + lo = mid + 1; + if (TimeFromYear(lo) > t) { + return mid; + } + } + } + return lo; + } + + private static double DayFromMonth(int m, int year) + { + int day = m * 30; + + if (m >= 7) { day += m / 2 - 1; } + else if (m >= 2) { day += (m - 1) / 2 - 1; } + else { day += m; } + + if (m >= 2 && IsLeapYear(year)) { ++day; } + + return day; + } + + private static int MonthFromTime(double t) + { + int year = YearFromTime(t); + int d = (int)(Day(t) - DayFromYear(year)); + + d -= 31 + 28; + if (d < 0) { + return (d < -28) ? 0 : 1; + } + + if (IsLeapYear(year)) { + if (d == 0) + return 1; // 29 February + --d; + } + + // d: date count from 1 March + int estimate = d / 30; // approx number of month since March + int mstart; + switch (estimate) { + case 0: return 2; + case 1: mstart = 31; break; + case 2: mstart = 31+30; break; + case 3: mstart = 31+30+31; break; + case 4: mstart = 31+30+31+30; break; + case 5: mstart = 31+30+31+30+31; break; + case 6: mstart = 31+30+31+30+31+31; break; + case 7: mstart = 31+30+31+30+31+31+30; break; + case 8: mstart = 31+30+31+30+31+31+30+31; break; + case 9: mstart = 31+30+31+30+31+31+30+31+30; break; + case 10: return 11; //Late december + default: throw Kit.codeBug(); + } + // if d < mstart then real month since March == estimate - 1 + return (d >= mstart) ? estimate + 2 : estimate + 1; + } + + private static int DateFromTime(double t) + { + int year = YearFromTime(t); + int d = (int)(Day(t) - DayFromYear(year)); + + d -= 31 + 28; + if (d < 0) { + return (d < -28) ? d + 31 + 28 + 1 : d + 28 + 1; + } + + if (IsLeapYear(year)) { + if (d == 0) + return 29; // 29 February + --d; + } + + // d: date count from 1 March + int mdays, mstart; + switch (d / 30) { // approx number of month since March + case 0: return d + 1; + case 1: mdays = 31; mstart = 31; break; + case 2: mdays = 30; mstart = 31+30; break; + case 3: mdays = 31; mstart = 31+30+31; break; + case 4: mdays = 30; mstart = 31+30+31+30; break; + case 5: mdays = 31; mstart = 31+30+31+30+31; break; + case 6: mdays = 31; mstart = 31+30+31+30+31+31; break; + case 7: mdays = 30; mstart = 31+30+31+30+31+31+30; break; + case 8: mdays = 31; mstart = 31+30+31+30+31+31+30+31; break; + case 9: mdays = 30; mstart = 31+30+31+30+31+31+30+31+30; break; + case 10: + return d - (31+30+31+30+31+31+30+31+30) + 1; //Late december + default: throw Kit.codeBug(); + } + d -= mstart; + if (d < 0) { + // wrong estimate: sfhift to previous month + d += mdays; + } + return d + 1; + } + + private static int WeekDay(double t) + { + double result; + result = Day(t) + 4; + result = result % 7; + if (result < 0) + result += 7; + return (int) result; + } + + private static double now() + { + return System.currentTimeMillis(); + } + + /* Should be possible to determine the need for this dynamically + * if we go with the workaround... I'm not using it now, because I + * can't think of any clean way to make toLocaleString() and the + * time zone (comment) in toString match the generated string + * values. Currently it's wrong-but-consistent in all but the + * most recent betas of the JRE - seems to work in 1.1.7. + */ + private final static boolean TZO_WORKAROUND = false; + private static double DaylightSavingTA(double t) + { + // Another workaround! The JRE doesn't seem to know about DST + // before year 1 AD, so we map to equivalent dates for the + // purposes of finding dst. To be safe, we do this for years + // outside 1970-2038. + if (t < 0.0 || t > 2145916800000.0) { + int year = EquivalentYear(YearFromTime(t)); + double day = MakeDay(year, MonthFromTime(t), DateFromTime(t)); + t = MakeDate(day, TimeWithinDay(t)); + } + if (!TZO_WORKAROUND) { + Date date = new Date((long) t); + if (thisTimeZone.inDaylightTime(date)) + return msPerHour; + else + return 0; + } else { + /* Use getOffset if inDaylightTime() is broken, because it + * seems to work acceptably. We don't switch over to it + * entirely, because it requires (expensive) exploded date arguments, + * and the api makes it impossible to handle dst + * changeovers cleanly. + */ + + // Hardcode the assumption that the changeover always + // happens at 2:00 AM: + t += LocalTZA + (HourFromTime(t) <= 2 ? msPerHour : 0); + + int year = YearFromTime(t); + double offset = thisTimeZone.getOffset(year > 0 ? 1 : 0, + year, + MonthFromTime(t), + DateFromTime(t), + WeekDay(t), + (int)TimeWithinDay(t)); + + if ((offset - LocalTZA) != 0) + return msPerHour; + else + return 0; + // return offset - LocalTZA; + } + } + + /* + * Find a year for which any given date will fall on the same weekday. + * + * This function should be used with caution when used other than + * for determining DST; it hasn't been proven not to produce an + * incorrect year for times near year boundaries. + */ + private static int EquivalentYear(int year) + { + int day = (int) DayFromYear(year) + 4; + day = day % 7; + if (day < 0) + day += 7; + // Years and leap years on which Jan 1 is a Sunday, Monday, etc. + if (IsLeapYear(year)) { + switch (day) { + case 0: return 1984; + case 1: return 1996; + case 2: return 1980; + case 3: return 1992; + case 4: return 1976; + case 5: return 1988; + case 6: return 1972; + } + } else { + switch (day) { + case 0: return 1978; + case 1: return 1973; + case 2: return 1974; + case 3: return 1975; + case 4: return 1981; + case 5: return 1971; + case 6: return 1977; + } + } + // Unreachable + throw Kit.codeBug(); + } + + private static double LocalTime(double t) + { + return t + LocalTZA + DaylightSavingTA(t); + } + + private static double internalUTC(double t) + { + return t - LocalTZA - DaylightSavingTA(t - LocalTZA); + } + + private static int HourFromTime(double t) + { + double result; + result = Math.floor(t / msPerHour) % HoursPerDay; + if (result < 0) + result += HoursPerDay; + return (int) result; + } + + private static int MinFromTime(double t) + { + double result; + result = Math.floor(t / msPerMinute) % MinutesPerHour; + if (result < 0) + result += MinutesPerHour; + return (int) result; + } + + private static int SecFromTime(double t) + { + double result; + result = Math.floor(t / msPerSecond) % SecondsPerMinute; + if (result < 0) + result += SecondsPerMinute; + return (int) result; + } + + private static int msFromTime(double t) + { + double result; + result = t % msPerSecond; + if (result < 0) + result += msPerSecond; + return (int) result; + } + + private static double MakeTime(double hour, double min, + double sec, double ms) + { + return ((hour * MinutesPerHour + min) * SecondsPerMinute + sec) + * msPerSecond + ms; + } + + private static double MakeDay(double year, double month, double date) + { + year += Math.floor(month / 12); + + month = month % 12; + if (month < 0) + month += 12; + + double yearday = Math.floor(TimeFromYear(year) / msPerDay); + double monthday = DayFromMonth((int)month, (int)year); + + return yearday + monthday + date - 1; + } + + private static double MakeDate(double day, double time) + { + return day * msPerDay + time; + } + + private static double TimeClip(double d) + { + if (d != d || + d == Double.POSITIVE_INFINITY || + d == Double.NEGATIVE_INFINITY || + Math.abs(d) > HalfTimeDomain) + { + return ScriptRuntime.NaN; + } + if (d > 0.0) + return Math.floor(d + 0.); + else + return Math.ceil(d + 0.); + } + + /* end of ECMA helper functions */ + + /* find UTC time from given date... no 1900 correction! */ + private static double date_msecFromDate(double year, double mon, + double mday, double hour, + double min, double sec, + double msec) + { + double day; + double time; + double result; + + day = MakeDay(year, mon, mday); + time = MakeTime(hour, min, sec, msec); + result = MakeDate(day, time); + return result; + } + + /* compute the time in msec (unclipped) from the given args */ + private static final int MAXARGS = 7; + private static double date_msecFromArgs(Object[] args) + { + double array[] = new double[MAXARGS]; + int loop; + double d; + + for (loop = 0; loop < MAXARGS; loop++) { + if (loop < args.length) { + d = ScriptRuntime.toNumber(args[loop]); + if (d != d || Double.isInfinite(d)) { + return ScriptRuntime.NaN; + } + array[loop] = ScriptRuntime.toInteger(args[loop]); + } else { + if (loop == 2) { + array[loop] = 1; /* Default the date argument to 1. */ + } else { + array[loop] = 0; + } + } + } + + /* adjust 2-digit years into the 20th century */ + if (array[0] >= 0 && array[0] <= 99) + array[0] += 1900; + + return date_msecFromDate(array[0], array[1], array[2], + array[3], array[4], array[5], array[6]); + } + + private static double jsStaticFunction_UTC(Object[] args) + { + return TimeClip(date_msecFromArgs(args)); + } + + private static double date_parseString(String s) + { + int year = -1; + int mon = -1; + int mday = -1; + int hour = -1; + int min = -1; + int sec = -1; + char c = 0; + char si = 0; + int i = 0; + int n = -1; + double tzoffset = -1; + char prevc = 0; + int limit = 0; + boolean seenplusminus = false; + + limit = s.length(); + while (i < limit) { + c = s.charAt(i); + i++; + if (c <= ' ' || c == ',' || c == '-') { + if (i < limit) { + si = s.charAt(i); + if (c == '-' && '0' <= si && si <= '9') { + prevc = c; + } + } + continue; + } + if (c == '(') { /* comments) */ + int depth = 1; + while (i < limit) { + c = s.charAt(i); + i++; + if (c == '(') + depth++; + else if (c == ')') + if (--depth <= 0) + break; + } + continue; + } + if ('0' <= c && c <= '9') { + n = c - '0'; + while (i < limit && '0' <= (c = s.charAt(i)) && c <= '9') { + n = n * 10 + c - '0'; + i++; + } + + /* allow TZA before the year, so + * 'Wed Nov 05 21:49:11 GMT-0800 1997' + * works */ + + /* uses of seenplusminus allow : in TZA, so Java + * no-timezone style of GMT+4:30 works + */ + if ((prevc == '+' || prevc == '-')/* && year>=0 */) { + /* make ':' case below change tzoffset */ + seenplusminus = true; + + /* offset */ + if (n < 24) + n = n * 60; /* EG. "GMT-3" */ + else + n = n % 100 + n / 100 * 60; /* eg "GMT-0430" */ + if (prevc == '+') /* plus means east of GMT */ + n = -n; + if (tzoffset != 0 && tzoffset != -1) + return ScriptRuntime.NaN; + tzoffset = n; + } else if (n >= 70 || + (prevc == '/' && mon >= 0 && mday >= 0 + && year < 0)) + { + if (year >= 0) + return ScriptRuntime.NaN; + else if (c <= ' ' || c == ',' || c == '/' || i >= limit) + year = n < 100 ? n + 1900 : n; + else + return ScriptRuntime.NaN; + } else if (c == ':') { + if (hour < 0) + hour = /*byte*/ n; + else if (min < 0) + min = /*byte*/ n; + else + return ScriptRuntime.NaN; + } else if (c == '/') { + if (mon < 0) + mon = /*byte*/ n-1; + else if (mday < 0) + mday = /*byte*/ n; + else + return ScriptRuntime.NaN; + } else if (i < limit && c != ',' && c > ' ' && c != '-') { + return ScriptRuntime.NaN; + } else if (seenplusminus && n < 60) { /* handle GMT-3:30 */ + if (tzoffset < 0) + tzoffset -= n; + else + tzoffset += n; + } else if (hour >= 0 && min < 0) { + min = /*byte*/ n; + } else if (min >= 0 && sec < 0) { + sec = /*byte*/ n; + } else if (mday < 0) { + mday = /*byte*/ n; + } else { + return ScriptRuntime.NaN; + } + prevc = 0; + } else if (c == '/' || c == ':' || c == '+' || c == '-') { + prevc = c; + } else { + int st = i - 1; + while (i < limit) { + c = s.charAt(i); + if (!(('A' <= c && c <= 'Z') || ('a' <= c && c <= 'z'))) + break; + i++; + } + int letterCount = i - st; + if (letterCount < 2) + return ScriptRuntime.NaN; + /* + * Use ported code from jsdate.c rather than the locale-specific + * date-parsing code from Java, to keep js and rhino consistent. + * Is this the right strategy? + */ + String wtb = "am;pm;" + +"monday;tuesday;wednesday;thursday;friday;" + +"saturday;sunday;" + +"january;february;march;april;may;june;" + +"july;august;september;october;november;december;" + +"gmt;ut;utc;est;edt;cst;cdt;mst;mdt;pst;pdt;"; + int index = 0; + for (int wtbOffset = 0; ;) { + int wtbNext = wtb.indexOf(';', wtbOffset); + if (wtbNext < 0) + return ScriptRuntime.NaN; + if (wtb.regionMatches(true, wtbOffset, s, st, letterCount)) + break; + wtbOffset = wtbNext + 1; + ++index; + } + if (index < 2) { + /* + * AM/PM. Count 12:30 AM as 00:30, 12:30 PM as + * 12:30, instead of blindly adding 12 if PM. + */ + if (hour > 12 || hour < 0) { + return ScriptRuntime.NaN; + } else if (index == 0) { + // AM + if (hour == 12) + hour = 0; + } else { + // PM + if (hour != 12) + hour += 12; + } + } else if ((index -= 2) < 7) { + // ignore week days + } else if ((index -= 7) < 12) { + // month + if (mon < 0) { + mon = index; + } else { + return ScriptRuntime.NaN; + } + } else { + index -= 12; + // timezones + switch (index) { + case 0 /* gmt */: tzoffset = 0; break; + case 1 /* ut */: tzoffset = 0; break; + case 2 /* utc */: tzoffset = 0; break; + case 3 /* est */: tzoffset = 5 * 60; break; + case 4 /* edt */: tzoffset = 4 * 60; break; + case 5 /* cst */: tzoffset = 6 * 60; break; + case 6 /* cdt */: tzoffset = 5 * 60; break; + case 7 /* mst */: tzoffset = 7 * 60; break; + case 8 /* mdt */: tzoffset = 6 * 60; break; + case 9 /* pst */: tzoffset = 8 * 60; break; + case 10 /* pdt */:tzoffset = 7 * 60; break; + default: Kit.codeBug(); + } + } + } + } + if (year < 0 || mon < 0 || mday < 0) + return ScriptRuntime.NaN; + if (sec < 0) + sec = 0; + if (min < 0) + min = 0; + if (hour < 0) + hour = 0; + + double msec = date_msecFromDate(year, mon, mday, hour, min, sec, 0); + if (tzoffset == -1) { /* no time zone specified, have to use local */ + return internalUTC(msec); + } else { + return msec + tzoffset * msPerMinute; + } + } + + private static String date_format(double t, int methodId) + { + StringBuffer result = new StringBuffer(60); + double local = LocalTime(t); + + /* Tue Oct 31 09:41:40 GMT-0800 (PST) 2000 */ + /* Tue Oct 31 2000 */ + /* 09:41:40 GMT-0800 (PST) */ + + if (methodId != Id_toTimeString) { + appendWeekDayName(result, WeekDay(local)); + result.append(' '); + appendMonthName(result, MonthFromTime(local)); + result.append(' '); + append0PaddedUint(result, DateFromTime(local), 2); + result.append(' '); + int year = YearFromTime(local); + if (year < 0) { + result.append('-'); + year = -year; + } + append0PaddedUint(result, year, 4); + if (methodId != Id_toDateString) + result.append(' '); + } + + if (methodId != Id_toDateString) { + append0PaddedUint(result, HourFromTime(local), 2); + result.append(':'); + append0PaddedUint(result, MinFromTime(local), 2); + result.append(':'); + append0PaddedUint(result, SecFromTime(local), 2); + + // offset from GMT in minutes. The offset includes daylight + // savings, if it applies. + int minutes = (int) Math.floor((LocalTZA + DaylightSavingTA(t)) + / msPerMinute); + // map 510 minutes to 0830 hours + int offset = (minutes / 60) * 100 + minutes % 60; + if (offset > 0) { + result.append(" GMT+"); + } else { + result.append(" GMT-"); + offset = -offset; + } + append0PaddedUint(result, offset, 4); + + if (timeZoneFormatter == null) + timeZoneFormatter = new java.text.SimpleDateFormat("zzz"); + + // Find an equivalent year before getting the timezone + // comment. See DaylightSavingTA. + if (t < 0.0 || t > 2145916800000.0) { + int equiv = EquivalentYear(YearFromTime(local)); + double day = MakeDay(equiv, MonthFromTime(t), DateFromTime(t)); + t = MakeDate(day, TimeWithinDay(t)); + } + result.append(" ("); + java.util.Date date = new Date((long) t); + synchronized (timeZoneFormatter) { + result.append(timeZoneFormatter.format(date)); + } + result.append(')'); + } + return result.toString(); + } + + /* the javascript constructor */ + private static Object jsConstructor(Object[] args) + { + NativeDate obj = new NativeDate(); + + // if called as a constructor with no args, + // return a new Date with the current time. + if (args.length == 0) { + obj.date = now(); + return obj; + } + + // if called with just one arg - + if (args.length == 1) { + Object arg0 = args[0]; + if (arg0 instanceof Scriptable) + arg0 = ((Scriptable) arg0).getDefaultValue(null); + double date; + if (arg0 instanceof String) { + // it's a string; parse it. + date = date_parseString((String)arg0); + } else { + // if it's not a string, use it as a millisecond date + date = ScriptRuntime.toNumber(arg0); + } + obj.date = TimeClip(date); + return obj; + } + + double time = date_msecFromArgs(args); + + if (!Double.isNaN(time) && !Double.isInfinite(time)) + time = TimeClip(internalUTC(time)); + + obj.date = time; + + return obj; + } + + private static String toLocale_helper(double t, int methodId) + { + java.text.DateFormat formatter; + switch (methodId) { + case Id_toLocaleString: + if (localeDateTimeFormatter == null) { + localeDateTimeFormatter + = DateFormat.getDateTimeInstance(DateFormat.LONG, + DateFormat.LONG); + } + formatter = localeDateTimeFormatter; + break; + case Id_toLocaleTimeString: + if (localeTimeFormatter == null) { + localeTimeFormatter + = DateFormat.getTimeInstance(DateFormat.LONG); + } + formatter = localeTimeFormatter; + break; + case Id_toLocaleDateString: + if (localeDateFormatter == null) { + localeDateFormatter + = DateFormat.getDateInstance(DateFormat.LONG); + } + formatter = localeDateFormatter; + break; + default: formatter = null; // unreachable + } + + synchronized (formatter) { + return formatter.format(new Date((long) t)); + } + } + + private static String js_toUTCString(double date) + { + StringBuffer result = new StringBuffer(60); + + appendWeekDayName(result, WeekDay(date)); + result.append(", "); + append0PaddedUint(result, DateFromTime(date), 2); + result.append(' '); + appendMonthName(result, MonthFromTime(date)); + result.append(' '); + int year = YearFromTime(date); + if (year < 0) { + result.append('-'); year = -year; + } + append0PaddedUint(result, year, 4); + result.append(' '); + append0PaddedUint(result, HourFromTime(date), 2); + result.append(':'); + append0PaddedUint(result, MinFromTime(date), 2); + result.append(':'); + append0PaddedUint(result, SecFromTime(date), 2); + result.append(" GMT"); + return result.toString(); + } + + private static void append0PaddedUint(StringBuffer sb, int i, int minWidth) + { + if (i < 0) Kit.codeBug(); + int scale = 1; + --minWidth; + if (i >= 10) { + if (i < 1000 * 1000 * 1000) { + for (;;) { + int newScale = scale * 10; + if (i < newScale) { break; } + --minWidth; + scale = newScale; + } + } else { + // Separated case not to check against 10 * 10^9 overflow + minWidth -= 9; + scale = 1000 * 1000 * 1000; + } + } + while (minWidth > 0) { + sb.append('0'); + --minWidth; + } + while (scale != 1) { + sb.append((char)('0' + (i / scale))); + i %= scale; + scale /= 10; + } + sb.append((char)('0' + i)); + } + + private static void appendMonthName(StringBuffer sb, int index) + { + // Take advantage of the fact that all month abbreviations + // have the same length to minimize amount of strings runtime has + // to keep in memory + String months = "Jan"+"Feb"+"Mar"+"Apr"+"May"+"Jun" + +"Jul"+"Aug"+"Sep"+"Oct"+"Nov"+"Dec"; + index *= 3; + for (int i = 0; i != 3; ++i) { + sb.append(months.charAt(index + i)); + } + } + + private static void appendWeekDayName(StringBuffer sb, int index) + { + String days = "Sun"+"Mon"+"Tue"+"Wed"+"Thu"+"Fri"+"Sat"; + index *= 3; + for (int i = 0; i != 3; ++i) { + sb.append(days.charAt(index + i)); + } + } + + private static double makeTime(double date, Object[] args, int methodId) + { + int maxargs; + boolean local = true; + switch (methodId) { + case Id_setUTCMilliseconds: + local = false; + // fallthrough + case Id_setMilliseconds: + maxargs = 1; + break; + + case Id_setUTCSeconds: + local = false; + // fallthrough + case Id_setSeconds: + maxargs = 2; + break; + + case Id_setUTCMinutes: + local = false; + // fallthrough + case Id_setMinutes: + maxargs = 3; + break; + + case Id_setUTCHours: + local = false; + // fallthrough + case Id_setHours: + maxargs = 4; + break; + + default: + Kit.codeBug(); + maxargs = 0; + } + + int i; + double conv[] = new double[4]; + double hour, min, sec, msec; + double lorutime; /* Local or UTC version of date */ + + double time; + double result; + + /* just return NaN if the date is already NaN */ + if (date != date) + return date; + + /* Satisfy the ECMA rule that if a function is called with + * fewer arguments than the specified formal arguments, the + * remaining arguments are set to undefined. Seems like all + * the Date.setWhatever functions in ECMA are only varargs + * beyond the first argument; this should be set to undefined + * if it's not given. This means that "d = new Date(); + * d.setMilliseconds()" returns NaN. Blech. + */ + if (args.length == 0) + args = ScriptRuntime.padArguments(args, 1); + + for (i = 0; i < args.length && i < maxargs; i++) { + conv[i] = ScriptRuntime.toNumber(args[i]); + + // limit checks that happen in MakeTime in ECMA. + if (conv[i] != conv[i] || Double.isInfinite(conv[i])) { + return ScriptRuntime.NaN; + } + conv[i] = ScriptRuntime.toInteger(conv[i]); + } + + if (local) + lorutime = LocalTime(date); + else + lorutime = date; + + i = 0; + int stop = args.length; + + if (maxargs >= 4 && i < stop) + hour = conv[i++]; + else + hour = HourFromTime(lorutime); + + if (maxargs >= 3 && i < stop) + min = conv[i++]; + else + min = MinFromTime(lorutime); + + if (maxargs >= 2 && i < stop) + sec = conv[i++]; + else + sec = SecFromTime(lorutime); + + if (maxargs >= 1 && i < stop) + msec = conv[i++]; + else + msec = msFromTime(lorutime); + + time = MakeTime(hour, min, sec, msec); + result = MakeDate(Day(lorutime), time); + + if (local) + result = internalUTC(result); + date = TimeClip(result); + + return date; + } + + private static double makeDate(double date, Object[] args, int methodId) + { + int maxargs; + boolean local = true; + switch (methodId) { + case Id_setUTCDate: + local = false; + // fallthrough + case Id_setDate: + maxargs = 1; + break; + + case Id_setUTCMonth: + local = false; + // fallthrough + case Id_setMonth: + maxargs = 2; + break; + + case Id_setUTCFullYear: + local = false; + // fallthrough + case Id_setFullYear: + maxargs = 3; + break; + + default: + Kit.codeBug(); + maxargs = 0; + } + + int i; + double conv[] = new double[3]; + double year, month, day; + double lorutime; /* local or UTC version of date */ + double result; + + /* See arg padding comment in makeTime.*/ + if (args.length == 0) + args = ScriptRuntime.padArguments(args, 1); + + for (i = 0; i < args.length && i < maxargs; i++) { + conv[i] = ScriptRuntime.toNumber(args[i]); + + // limit checks that happen in MakeDate in ECMA. + if (conv[i] != conv[i] || Double.isInfinite(conv[i])) { + return ScriptRuntime.NaN; + } + conv[i] = ScriptRuntime.toInteger(conv[i]); + } + + /* return NaN if date is NaN and we're not setting the year, + * If we are, use 0 as the time. */ + if (date != date) { + if (args.length < 3) { + return ScriptRuntime.NaN; + } else { + lorutime = 0; + } + } else { + if (local) + lorutime = LocalTime(date); + else + lorutime = date; + } + + i = 0; + int stop = args.length; + + if (maxargs >= 3 && i < stop) + year = conv[i++]; + else + year = YearFromTime(lorutime); + + if (maxargs >= 2 && i < stop) + month = conv[i++]; + else + month = MonthFromTime(lorutime); + + if (maxargs >= 1 && i < stop) + day = conv[i++]; + else + day = DateFromTime(lorutime); + + day = MakeDay(year, month, day); /* day within year */ + result = MakeDate(day, TimeWithinDay(lorutime)); + + if (local) + result = internalUTC(result); + + date = TimeClip(result); + + return date; + } + +// #string_id_map# + + protected int findPrototypeId(String s) + { + int id; +// #generated# Last update: 2007-05-09 08:15:38 EDT + L0: { id = 0; String X = null; int c; + L: switch (s.length()) { + case 6: X="getDay";id=Id_getDay; break L; + case 7: switch (s.charAt(3)) { + case 'D': c=s.charAt(0); + if (c=='g') { X="getDate";id=Id_getDate; } + else if (c=='s') { X="setDate";id=Id_setDate; } + break L; + case 'T': c=s.charAt(0); + if (c=='g') { X="getTime";id=Id_getTime; } + else if (c=='s') { X="setTime";id=Id_setTime; } + break L; + case 'Y': c=s.charAt(0); + if (c=='g') { X="getYear";id=Id_getYear; } + else if (c=='s') { X="setYear";id=Id_setYear; } + break L; + case 'u': X="valueOf";id=Id_valueOf; break L; + } break L; + case 8: switch (s.charAt(3)) { + case 'H': c=s.charAt(0); + if (c=='g') { X="getHours";id=Id_getHours; } + else if (c=='s') { X="setHours";id=Id_setHours; } + break L; + case 'M': c=s.charAt(0); + if (c=='g') { X="getMonth";id=Id_getMonth; } + else if (c=='s') { X="setMonth";id=Id_setMonth; } + break L; + case 'o': X="toSource";id=Id_toSource; break L; + case 't': X="toString";id=Id_toString; break L; + } break L; + case 9: X="getUTCDay";id=Id_getUTCDay; break L; + case 10: c=s.charAt(3); + if (c=='M') { + c=s.charAt(0); + if (c=='g') { X="getMinutes";id=Id_getMinutes; } + else if (c=='s') { X="setMinutes";id=Id_setMinutes; } + } + else if (c=='S') { + c=s.charAt(0); + if (c=='g') { X="getSeconds";id=Id_getSeconds; } + else if (c=='s') { X="setSeconds";id=Id_setSeconds; } + } + else if (c=='U') { + c=s.charAt(0); + if (c=='g') { X="getUTCDate";id=Id_getUTCDate; } + else if (c=='s') { X="setUTCDate";id=Id_setUTCDate; } + } + break L; + case 11: switch (s.charAt(3)) { + case 'F': c=s.charAt(0); + if (c=='g') { X="getFullYear";id=Id_getFullYear; } + else if (c=='s') { X="setFullYear";id=Id_setFullYear; } + break L; + case 'M': X="toGMTString";id=Id_toGMTString; break L; + case 'T': X="toUTCString";id=Id_toUTCString; break L; + case 'U': c=s.charAt(0); + if (c=='g') { + c=s.charAt(9); + if (c=='r') { X="getUTCHours";id=Id_getUTCHours; } + else if (c=='t') { X="getUTCMonth";id=Id_getUTCMonth; } + } + else if (c=='s') { + c=s.charAt(9); + if (c=='r') { X="setUTCHours";id=Id_setUTCHours; } + else if (c=='t') { X="setUTCMonth";id=Id_setUTCMonth; } + } + break L; + case 's': X="constructor";id=Id_constructor; break L; + } break L; + case 12: c=s.charAt(2); + if (c=='D') { X="toDateString";id=Id_toDateString; } + else if (c=='T') { X="toTimeString";id=Id_toTimeString; } + break L; + case 13: c=s.charAt(0); + if (c=='g') { + c=s.charAt(6); + if (c=='M') { X="getUTCMinutes";id=Id_getUTCMinutes; } + else if (c=='S') { X="getUTCSeconds";id=Id_getUTCSeconds; } + } + else if (c=='s') { + c=s.charAt(6); + if (c=='M') { X="setUTCMinutes";id=Id_setUTCMinutes; } + else if (c=='S') { X="setUTCSeconds";id=Id_setUTCSeconds; } + } + break L; + case 14: c=s.charAt(0); + if (c=='g') { X="getUTCFullYear";id=Id_getUTCFullYear; } + else if (c=='s') { X="setUTCFullYear";id=Id_setUTCFullYear; } + else if (c=='t') { X="toLocaleString";id=Id_toLocaleString; } + break L; + case 15: c=s.charAt(0); + if (c=='g') { X="getMilliseconds";id=Id_getMilliseconds; } + else if (c=='s') { X="setMilliseconds";id=Id_setMilliseconds; } + break L; + case 17: X="getTimezoneOffset";id=Id_getTimezoneOffset; break L; + case 18: c=s.charAt(0); + if (c=='g') { X="getUTCMilliseconds";id=Id_getUTCMilliseconds; } + else if (c=='s') { X="setUTCMilliseconds";id=Id_setUTCMilliseconds; } + else if (c=='t') { + c=s.charAt(8); + if (c=='D') { X="toLocaleDateString";id=Id_toLocaleDateString; } + else if (c=='T') { X="toLocaleTimeString";id=Id_toLocaleTimeString; } + } + break L; + } + if (X!=null && X!=s && !X.equals(s)) id = 0; + break L0; + } +// #/generated# + return id; + } + + private static final int + ConstructorId_now = -3, + ConstructorId_parse = -2, + ConstructorId_UTC = -1, + + Id_constructor = 1, + Id_toString = 2, + Id_toTimeString = 3, + Id_toDateString = 4, + Id_toLocaleString = 5, + Id_toLocaleTimeString = 6, + Id_toLocaleDateString = 7, + Id_toUTCString = 8, + Id_toSource = 9, + Id_valueOf = 10, + Id_getTime = 11, + Id_getYear = 12, + Id_getFullYear = 13, + Id_getUTCFullYear = 14, + Id_getMonth = 15, + Id_getUTCMonth = 16, + Id_getDate = 17, + Id_getUTCDate = 18, + Id_getDay = 19, + Id_getUTCDay = 20, + Id_getHours = 21, + Id_getUTCHours = 22, + Id_getMinutes = 23, + Id_getUTCMinutes = 24, + Id_getSeconds = 25, + Id_getUTCSeconds = 26, + Id_getMilliseconds = 27, + Id_getUTCMilliseconds = 28, + Id_getTimezoneOffset = 29, + Id_setTime = 30, + Id_setMilliseconds = 31, + Id_setUTCMilliseconds = 32, + Id_setSeconds = 33, + Id_setUTCSeconds = 34, + Id_setMinutes = 35, + Id_setUTCMinutes = 36, + Id_setHours = 37, + Id_setUTCHours = 38, + Id_setDate = 39, + Id_setUTCDate = 40, + Id_setMonth = 41, + Id_setUTCMonth = 42, + Id_setFullYear = 43, + Id_setUTCFullYear = 44, + Id_setYear = 45, + + MAX_PROTOTYPE_ID = 45; + + private static final int + Id_toGMTString = Id_toUTCString; // Alias, see Ecma B.2.6 +// #/string_id_map# + + /* cached values */ + private static java.util.TimeZone thisTimeZone; + private static double LocalTZA; + private static java.text.DateFormat timeZoneFormatter; + private static java.text.DateFormat localeDateTimeFormatter; + private static java.text.DateFormat localeDateFormatter; + private static java.text.DateFormat localeTimeFormatter; + + private double date; +} + + |