/* * Copyright (C) 2006 The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (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.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ package com.android.calendarcommon2; import android.text.TextUtils; import android.util.Log; import java.util.Calendar; import java.util.HashMap; /** * Event recurrence utility functions. */ public class EventRecurrence { private static String TAG = "EventRecur"; public static final int SECONDLY = 1; public static final int MINUTELY = 2; public static final int HOURLY = 3; public static final int DAILY = 4; public static final int WEEKLY = 5; public static final int MONTHLY = 6; public static final int YEARLY = 7; public static final int SU = 0x00010000; public static final int MO = 0x00020000; public static final int TU = 0x00040000; public static final int WE = 0x00080000; public static final int TH = 0x00100000; public static final int FR = 0x00200000; public static final int SA = 0x00400000; public Time startDate; // set by setStartDate(), not parse() public int freq; // SECONDLY, MINUTELY, etc. public String until; public int count; public int interval; public int wkst; // SU, MO, TU, etc. /* lists with zero entries may be null references */ public int[] bysecond; public int bysecondCount; public int[] byminute; public int byminuteCount; public int[] byhour; public int byhourCount; public int[] byday; public int[] bydayNum; public int bydayCount; public int[] bymonthday; public int bymonthdayCount; public int[] byyearday; public int byyeardayCount; public int[] byweekno; public int byweeknoCount; public int[] bymonth; public int bymonthCount; public int[] bysetpos; public int bysetposCount; /** maps a part string to a parser object */ private static HashMap sParsePartMap; static { sParsePartMap = new HashMap(); sParsePartMap.put("FREQ", new ParseFreq()); sParsePartMap.put("UNTIL", new ParseUntil()); sParsePartMap.put("COUNT", new ParseCount()); sParsePartMap.put("INTERVAL", new ParseInterval()); sParsePartMap.put("BYSECOND", new ParseBySecond()); sParsePartMap.put("BYMINUTE", new ParseByMinute()); sParsePartMap.put("BYHOUR", new ParseByHour()); sParsePartMap.put("BYDAY", new ParseByDay()); sParsePartMap.put("BYMONTHDAY", new ParseByMonthDay()); sParsePartMap.put("BYYEARDAY", new ParseByYearDay()); sParsePartMap.put("BYWEEKNO", new ParseByWeekNo()); sParsePartMap.put("BYMONTH", new ParseByMonth()); sParsePartMap.put("BYSETPOS", new ParseBySetPos()); sParsePartMap.put("WKST", new ParseWkst()); } /* values for bit vector that keeps track of what we have already seen */ private static final int PARSED_FREQ = 1 << 0; private static final int PARSED_UNTIL = 1 << 1; private static final int PARSED_COUNT = 1 << 2; private static final int PARSED_INTERVAL = 1 << 3; private static final int PARSED_BYSECOND = 1 << 4; private static final int PARSED_BYMINUTE = 1 << 5; private static final int PARSED_BYHOUR = 1 << 6; private static final int PARSED_BYDAY = 1 << 7; private static final int PARSED_BYMONTHDAY = 1 << 8; private static final int PARSED_BYYEARDAY = 1 << 9; private static final int PARSED_BYWEEKNO = 1 << 10; private static final int PARSED_BYMONTH = 1 << 11; private static final int PARSED_BYSETPOS = 1 << 12; private static final int PARSED_WKST = 1 << 13; /** maps a FREQ value to an integer constant */ private static final HashMap sParseFreqMap = new HashMap(); static { sParseFreqMap.put("SECONDLY", SECONDLY); sParseFreqMap.put("MINUTELY", MINUTELY); sParseFreqMap.put("HOURLY", HOURLY); sParseFreqMap.put("DAILY", DAILY); sParseFreqMap.put("WEEKLY", WEEKLY); sParseFreqMap.put("MONTHLY", MONTHLY); sParseFreqMap.put("YEARLY", YEARLY); } /** maps a two-character weekday string to an integer constant */ private static final HashMap sParseWeekdayMap = new HashMap(); static { sParseWeekdayMap.put("SU", SU); sParseWeekdayMap.put("MO", MO); sParseWeekdayMap.put("TU", TU); sParseWeekdayMap.put("WE", WE); sParseWeekdayMap.put("TH", TH); sParseWeekdayMap.put("FR", FR); sParseWeekdayMap.put("SA", SA); } /** If set, allow lower-case recurrence rule strings. Minor performance impact. */ private static final boolean ALLOW_LOWER_CASE = true; /** If set, validate the value of UNTIL parts. Minor performance impact. */ private static final boolean VALIDATE_UNTIL = false; /** If set, require that only one of {UNTIL,COUNT} is present. Breaks compat w/ old parser. */ private static final boolean ONLY_ONE_UNTIL_COUNT = false; /** * Thrown when a recurrence string provided can not be parsed according * to RFC2445. */ public static class InvalidFormatException extends RuntimeException { InvalidFormatException(String s) { super(s); } } public void setStartDate(Time date) { startDate = date; } /** * Converts one of the Calendar.SUNDAY constants to the SU, MO, etc. * constants. btw, I think we should switch to those here too, to * get rid of this function, if possible. */ public static int calendarDay2Day(int day) { switch (day) { case Calendar.SUNDAY: return SU; case Calendar.MONDAY: return MO; case Calendar.TUESDAY: return TU; case Calendar.WEDNESDAY: return WE; case Calendar.THURSDAY: return TH; case Calendar.FRIDAY: return FR; case Calendar.SATURDAY: return SA; default: throw new RuntimeException("bad day of week: " + day); } } public static int timeDay2Day(int day) { switch (day) { case Time.SUNDAY: return SU; case Time.MONDAY: return MO; case Time.TUESDAY: return TU; case Time.WEDNESDAY: return WE; case Time.THURSDAY: return TH; case Time.FRIDAY: return FR; case Time.SATURDAY: return SA; default: throw new RuntimeException("bad day of week: " + day); } } public static int day2TimeDay(int day) { switch (day) { case SU: return Time.SUNDAY; case MO: return Time.MONDAY; case TU: return Time.TUESDAY; case WE: return Time.WEDNESDAY; case TH: return Time.THURSDAY; case FR: return Time.FRIDAY; case SA: return Time.SATURDAY; default: throw new RuntimeException("bad day of week: " + day); } } /** * Converts one of the SU, MO, etc. constants to the Calendar.SUNDAY * constants. btw, I think we should switch to those here too, to * get rid of this function, if possible. */ public static int day2CalendarDay(int day) { switch (day) { case SU: return Calendar.SUNDAY; case MO: return Calendar.MONDAY; case TU: return Calendar.TUESDAY; case WE: return Calendar.WEDNESDAY; case TH: return Calendar.THURSDAY; case FR: return Calendar.FRIDAY; case SA: return Calendar.SATURDAY; default: throw new RuntimeException("bad day of week: " + day); } } /** * Converts one of the internal day constants (SU, MO, etc.) to the * two-letter string representing that constant. * * @param day one the internal constants SU, MO, etc. * @return the two-letter string for the day ("SU", "MO", etc.) * * @throws IllegalArgumentException Thrown if the day argument is not one of * the defined day constants. */ private static String day2String(int day) { switch (day) { case SU: return "SU"; case MO: return "MO"; case TU: return "TU"; case WE: return "WE"; case TH: return "TH"; case FR: return "FR"; case SA: return "SA"; default: throw new IllegalArgumentException("bad day argument: " + day); } } private static void appendNumbers(StringBuilder s, String label, int count, int[] values) { if (count > 0) { s.append(label); count--; for (int i=0; i * Negative days, e.g. "FREQ=MONTHLY;BYDAY=-1TU" (the last Tuesday of every month), * will cause "false" to be returned. *

* Rules that fire every week, such as "FREQ=MONTHLY;BYDAY=TU" (every Tuesday of every * month) will cause "false" to be returned. (Note these are usually expressed as * WEEKLY rules, and hence are uncommon.) * * @return true if this rule is of the appropriate form */ public boolean repeatsMonthlyOnDayCount() { if (this.freq != MONTHLY) { return false; } if (bydayCount != 1 || bymonthdayCount != 0) { return false; } if (bydayNum[0] <= 0) { return false; } return true; } /** * Determines whether two integer arrays contain identical elements. *

* The native implementation over-allocated the arrays (and may have stuff left over from * a previous run), so we can't just check the arrays -- the separately-maintained count * field also matters. We assume that a null array will have a count of zero, and that the * array can hold as many elements as the associated count indicates. *

* TODO: replace this with Arrays.equals() when the old parser goes away. */ private static boolean arraysEqual(int[] array1, int count1, int[] array2, int count2) { if (count1 != count2) { return false; } for (int i = 0; i < count1; i++) { if (array1[i] != array2[i]) return false; } return true; } @Override public boolean equals(Object obj) { if (this == obj) { return true; } if (!(obj instanceof EventRecurrence)) { return false; } EventRecurrence er = (EventRecurrence) obj; return (startDate == null ? er.startDate == null : startDate.compareTo(er.startDate) == 0) && freq == er.freq && (until == null ? er.until == null : until.equals(er.until)) && count == er.count && interval == er.interval && wkst == er.wkst && arraysEqual(bysecond, bysecondCount, er.bysecond, er.bysecondCount) && arraysEqual(byminute, byminuteCount, er.byminute, er.byminuteCount) && arraysEqual(byhour, byhourCount, er.byhour, er.byhourCount) && arraysEqual(byday, bydayCount, er.byday, er.bydayCount) && arraysEqual(bydayNum, bydayCount, er.bydayNum, er.bydayCount) && arraysEqual(bymonthday, bymonthdayCount, er.bymonthday, er.bymonthdayCount) && arraysEqual(byyearday, byyeardayCount, er.byyearday, er.byyeardayCount) && arraysEqual(byweekno, byweeknoCount, er.byweekno, er.byweeknoCount) && arraysEqual(bymonth, bymonthCount, er.bymonth, er.bymonthCount) && arraysEqual(bysetpos, bysetposCount, er.bysetpos, er.bysetposCount); } @Override public int hashCode() { // We overrode equals, so we must override hashCode(). Nobody seems to need this though. throw new UnsupportedOperationException(); } /** * Resets parser-modified fields to their initial state. Does not alter startDate. *

* The original parser always set all of the "count" fields, "wkst", and "until", * essentially allowing the same object to be used multiple times by calling parse(). * It's unclear whether this behavior was intentional. For now, be paranoid and * preserve the existing behavior by resetting the fields. *

* We don't need to touch the integer arrays; they will either be ignored or * overwritten. The "startDate" field is not set by the parser, so we ignore it here. */ private void resetFields() { until = null; freq = count = interval = bysecondCount = byminuteCount = byhourCount = bydayCount = bymonthdayCount = byyeardayCount = byweeknoCount = bymonthCount = bysetposCount = 0; } /** * Parses an rfc2445 recurrence rule string into its component pieces. Attempting to parse * malformed input will result in an EventRecurrence.InvalidFormatException. * * @param recur The recurrence rule to parse (in un-folded form). */ public void parse(String recur) { /* * From RFC 2445 section 4.3.10: * * recur = "FREQ"=freq *( * ; either UNTIL or COUNT may appear in a 'recur', * ; but UNTIL and COUNT MUST NOT occur in the same 'recur' * * ( ";" "UNTIL" "=" enddate ) / * ( ";" "COUNT" "=" 1*DIGIT ) / * * ; the rest of these keywords are optional, * ; but MUST NOT occur more than once * * ( ";" "INTERVAL" "=" 1*DIGIT ) / * ( ";" "BYSECOND" "=" byseclist ) / * ( ";" "BYMINUTE" "=" byminlist ) / * ( ";" "BYHOUR" "=" byhrlist ) / * ( ";" "BYDAY" "=" bywdaylist ) / * ( ";" "BYMONTHDAY" "=" bymodaylist ) / * ( ";" "BYYEARDAY" "=" byyrdaylist ) / * ( ";" "BYWEEKNO" "=" bywknolist ) / * ( ";" "BYMONTH" "=" bymolist ) / * ( ";" "BYSETPOS" "=" bysplist ) / * ( ";" "WKST" "=" weekday ) / * ( ";" x-name "=" text ) * ) * * The rule parts are not ordered in any particular sequence. * * Examples: * FREQ=MONTHLY;INTERVAL=2;COUNT=10;BYDAY=1SU,-1SU * FREQ=YEARLY;INTERVAL=4;BYMONTH=11;BYDAY=TU;BYMONTHDAY=2,3,4,5,6,7,8 * * Strategy: * (1) Split the string at ';' boundaries to get an array of rule "parts". * (2) For each part, find substrings for left/right sides of '=' (name/value). * (3) Call a -specific parsing function to parse the into an * output field. * * By keeping track of which names we've seen in a bit vector, we can verify the * constraints indicated above (FREQ appears first, none of them appear more than once -- * though x-[name] would require special treatment), and we have either UNTIL or COUNT * but not both. * * In general, RFC 2445 property names (e.g. "FREQ") and enumerations ("TU") must * be handled in a case-insensitive fashion, but case may be significant for other * properties. We don't have any case-sensitive values in RRULE, except possibly * for the custom "X-" properties, but we ignore those anyway. Thus, we can trivially * convert the entire string to upper case and then use simple comparisons. * * Differences from previous version: * - allows lower-case property and enumeration values [optional] * - enforces that FREQ appears first * - enforces that only one of UNTIL and COUNT may be specified * - allows (but ignores) X-* parts * - improved validation on various values (e.g. UNTIL timestamps) * - error messages are more specific * * TODO: enforce additional constraints listed in RFC 5545, notably the "N/A" entries * in section 3.3.10. For example, if FREQ=WEEKLY, we should reject a rule that * includes a BYMONTHDAY part. */ /* TODO: replace with "if (freq != 0) throw" if nothing requires this */ resetFields(); int parseFlags = 0; String[] parts; if (ALLOW_LOWER_CASE) { parts = recur.toUpperCase().split(";"); } else { parts = recur.split(";"); } for (String part : parts) { // allow empty part (e.g., double semicolon ";;") if (TextUtils.isEmpty(part)) { continue; } int equalIndex = part.indexOf('='); if (equalIndex <= 0) { /* no '=' or no LHS */ throw new InvalidFormatException("Missing LHS in " + part); } String lhs = part.substring(0, equalIndex); String rhs = part.substring(equalIndex + 1); if (rhs.length() == 0) { throw new InvalidFormatException("Missing RHS in " + part); } /* * In lieu of a "switch" statement that allows string arguments, we use a * map from strings to parsing functions. */ PartParser parser = sParsePartMap.get(lhs); if (parser == null) { if (lhs.startsWith("X-")) { //Log.d(TAG, "Ignoring custom part " + lhs); continue; } throw new InvalidFormatException("Couldn't find parser for " + lhs); } else { int flag = parser.parsePart(rhs, this); if ((parseFlags & flag) != 0) { throw new InvalidFormatException("Part " + lhs + " was specified twice"); } parseFlags |= flag; } } // If not specified, week starts on Monday. if ((parseFlags & PARSED_WKST) == 0) { wkst = MO; } // FREQ is mandatory. if ((parseFlags & PARSED_FREQ) == 0) { throw new InvalidFormatException("Must specify a FREQ value"); } // Can't have both UNTIL and COUNT. if ((parseFlags & (PARSED_UNTIL | PARSED_COUNT)) == (PARSED_UNTIL | PARSED_COUNT)) { if (ONLY_ONE_UNTIL_COUNT) { throw new InvalidFormatException("Must not specify both UNTIL and COUNT: " + recur); } else { Log.w(TAG, "Warning: rrule has both UNTIL and COUNT: " + recur); } } } /** * Base class for the RRULE part parsers. */ abstract static class PartParser { /** * Parses a single part. * * @param value The right-hand-side of the part. * @param er The EventRecurrence into which the result is stored. * @return A bit value indicating which part was parsed. */ public abstract int parsePart(String value, EventRecurrence er); /** * Parses an integer, with range-checking. * * @param str The string to parse. * @param minVal Minimum allowed value. * @param maxVal Maximum allowed value. * @param allowZero Is 0 allowed? * @return The parsed value. */ public static int parseIntRange(String str, int minVal, int maxVal, boolean allowZero) { try { if (str.charAt(0) == '+') { // Integer.parseInt does not allow a leading '+', so skip it manually. str = str.substring(1); } int val = Integer.parseInt(str); if (val < minVal || val > maxVal || (val == 0 && !allowZero)) { throw new InvalidFormatException("Integer value out of range: " + str); } return val; } catch (NumberFormatException nfe) { throw new InvalidFormatException("Invalid integer value: " + str); } } /** * Parses a comma-separated list of integers, with range-checking. * * @param listStr The string to parse. * @param minVal Minimum allowed value. * @param maxVal Maximum allowed value. * @param allowZero Is 0 allowed? * @return A new array with values, sized to hold the exact number of elements. */ public static int[] parseNumberList(String listStr, int minVal, int maxVal, boolean allowZero) { int[] values; if (listStr.indexOf(",") < 0) { // Common case: only one entry, skip split() overhead. values = new int[1]; values[0] = parseIntRange(listStr, minVal, maxVal, allowZero); } else { String[] valueStrs = listStr.split(","); int len = valueStrs.length; values = new int[len]; for (int i = 0; i < len; i++) { values[i] = parseIntRange(valueStrs[i], minVal, maxVal, allowZero); } } return values; } } /** parses FREQ={SECONDLY,MINUTELY,...} */ private static class ParseFreq extends PartParser { @Override public int parsePart(String value, EventRecurrence er) { Integer freq = sParseFreqMap.get(value); if (freq == null) { throw new InvalidFormatException("Invalid FREQ value: " + value); } er.freq = freq; return PARSED_FREQ; } } /** parses UNTIL=enddate, e.g. "19970829T021400" */ private static class ParseUntil extends PartParser { @Override public int parsePart(String value, EventRecurrence er) { if (VALIDATE_UNTIL) { try { // Parse the time to validate it. The result isn't retained. Time until = new Time(); until.parse(value); } catch (IllegalArgumentException iae) { throw new InvalidFormatException("Invalid UNTIL value: " + value); } } er.until = value; return PARSED_UNTIL; } } /** parses COUNT=[non-negative-integer] */ private static class ParseCount extends PartParser { @Override public int parsePart(String value, EventRecurrence er) { er.count = parseIntRange(value, Integer.MIN_VALUE, Integer.MAX_VALUE, true); if (er.count < 0) { Log.d(TAG, "Invalid Count. Forcing COUNT to 1 from " + value); er.count = 1; // invalid count. assume one time recurrence. } return PARSED_COUNT; } } /** parses INTERVAL=[non-negative-integer] */ private static class ParseInterval extends PartParser { @Override public int parsePart(String value, EventRecurrence er) { er.interval = parseIntRange(value, Integer.MIN_VALUE, Integer.MAX_VALUE, true); if (er.interval < 1) { Log.d(TAG, "Invalid Interval. Forcing INTERVAL to 1 from " + value); er.interval = 1; } return PARSED_INTERVAL; } } /** parses BYSECOND=byseclist */ private static class ParseBySecond extends PartParser { @Override public int parsePart(String value, EventRecurrence er) { int[] bysecond = parseNumberList(value, 0, 59, true); er.bysecond = bysecond; er.bysecondCount = bysecond.length; return PARSED_BYSECOND; } } /** parses BYMINUTE=byminlist */ private static class ParseByMinute extends PartParser { @Override public int parsePart(String value, EventRecurrence er) { int[] byminute = parseNumberList(value, 0, 59, true); er.byminute = byminute; er.byminuteCount = byminute.length; return PARSED_BYMINUTE; } } /** parses BYHOUR=byhrlist */ private static class ParseByHour extends PartParser { @Override public int parsePart(String value, EventRecurrence er) { int[] byhour = parseNumberList(value, 0, 23, true); er.byhour = byhour; er.byhourCount = byhour.length; return PARSED_BYHOUR; } } /** parses BYDAY=bywdaylist, e.g. "1SU,-1SU" */ private static class ParseByDay extends PartParser { @Override public int parsePart(String value, EventRecurrence er) { int[] byday; int[] bydayNum; int bydayCount; if (value.indexOf(",") < 0) { /* only one entry, skip split() overhead */ bydayCount = 1; byday = new int[1]; bydayNum = new int[1]; parseWday(value, byday, bydayNum, 0); } else { String[] wdays = value.split(","); int len = wdays.length; bydayCount = len; byday = new int[len]; bydayNum = new int[len]; for (int i = 0; i < len; i++) { parseWday(wdays[i], byday, bydayNum, i); } } er.byday = byday; er.bydayNum = bydayNum; er.bydayCount = bydayCount; return PARSED_BYDAY; } /** parses [int]weekday, putting the pieces into parallel array entries */ private static void parseWday(String str, int[] byday, int[] bydayNum, int index) { int wdayStrStart = str.length() - 2; String wdayStr; if (wdayStrStart > 0) { /* number is included; parse it out and advance to weekday */ String numPart = str.substring(0, wdayStrStart); int num = parseIntRange(numPart, -53, 53, false); bydayNum[index] = num; wdayStr = str.substring(wdayStrStart); } else { /* just the weekday string */ wdayStr = str; } Integer wday = sParseWeekdayMap.get(wdayStr); if (wday == null) { throw new InvalidFormatException("Invalid BYDAY value: " + str); } byday[index] = wday; } } /** parses BYMONTHDAY=bymodaylist */ private static class ParseByMonthDay extends PartParser { @Override public int parsePart(String value, EventRecurrence er) { int[] bymonthday = parseNumberList(value, -31, 31, false); er.bymonthday = bymonthday; er.bymonthdayCount = bymonthday.length; return PARSED_BYMONTHDAY; } } /** parses BYYEARDAY=byyrdaylist */ private static class ParseByYearDay extends PartParser { @Override public int parsePart(String value, EventRecurrence er) { int[] byyearday = parseNumberList(value, -366, 366, false); er.byyearday = byyearday; er.byyeardayCount = byyearday.length; return PARSED_BYYEARDAY; } } /** parses BYWEEKNO=bywknolist */ private static class ParseByWeekNo extends PartParser { @Override public int parsePart(String value, EventRecurrence er) { int[] byweekno = parseNumberList(value, -53, 53, false); er.byweekno = byweekno; er.byweeknoCount = byweekno.length; return PARSED_BYWEEKNO; } } /** parses BYMONTH=bymolist */ private static class ParseByMonth extends PartParser { @Override public int parsePart(String value, EventRecurrence er) { int[] bymonth = parseNumberList(value, 1, 12, false); er.bymonth = bymonth; er.bymonthCount = bymonth.length; return PARSED_BYMONTH; } } /** parses BYSETPOS=bysplist */ private static class ParseBySetPos extends PartParser { @Override public int parsePart(String value, EventRecurrence er) { int[] bysetpos = parseNumberList(value, Integer.MIN_VALUE, Integer.MAX_VALUE, true); er.bysetpos = bysetpos; er.bysetposCount = bysetpos.length; return PARSED_BYSETPOS; } } /** parses WKST={SU,MO,...} */ private static class ParseWkst extends PartParser { @Override public int parsePart(String value, EventRecurrence er) { Integer wkst = sParseWeekdayMap.get(value); if (wkst == null) { throw new InvalidFormatException("Invalid WKST value: " + value); } er.wkst = wkst; return PARSED_WKST; } } }