% % TeX & LaTeX MACROS FOR COMPUTING HEBREW DATE FROM GREGORIAN ONE % % by Michail Rozman, misha@iop.tartu.ew.su % % Released: Tammuz 12, 5751 -- June 24, 1991 % Corrected: Shebat 10, 5752 -- January 15, 1992 by Rama Porrat % Corrected: Adar II 5, 5752 -- March 10, 1992 by Misha % % Please direct any comments, bug reports, questions, etc. % to the address above. % % If Hebrew fonts and style macros are loaded AND you are in % Hebrew mode the produced date is in Hebrew. % Otherwise the date string looks like Shebat 10, 5752. % % Use this style as follows: % % LaTeX | TeX % | % \documentstyle[...,hebcal,...] \input hebcal.sty % % % ONLY IF \ifheb IS NOT % \newif\ifheb \hebtrue % DEFINED IN YOUR % % HEBREW STYLE !! % % \Hebrewtoday % or % {\day=10 \month=3 \year=1992 % to fool \today % \today == \Hebrewtoday} % or % \newcount\hd \newcount\hm \newcount\hy % \hd=10 \hm=3 \hy=1992 \Hebrewdate{\hd}{\hm}{\hy} % % % TABLE OF CONTENTS % % INTRODUCTION % REGISTERS, COMMANDS AND LANGUAGE-DEPENDENT INTERFACE % Hebrew language macros % English language macros % AUXILIARY MACROS % GREGORIAN PART % HEBREW PART % % ******************************************* % * INTRODUCTION * % ******************************************* % % The Hebrew calendar is inherently complicated: % It is lunisolar -- each year starts close to the % autumn equinox, but each month must strictly start % at a new moon. Thus Hebrew calendar must be harmonized % simultaneously with both lunar and solar events. % In addition, for reasons of the religious practice, the % year cannot start on Sunday, Wednesday or Friday. % % For the full description of Hebrew calendar and for % the list of references see: % % Nachum Dershowitz and Edward M. Reingold, % "Calendrical Calculations", Software--Pract.Exper., % vol. 20 (9), pp.899--928 (September 1990) % C translation of LISP programs from the above article % available from Mr. Wayne Geiser, geiser%pictel@uunet.uu.net % % The 4th distribution ( July 1989 ) of hdate/hcal ( Hebrew % calendar programs similar to UNIX date/cal ) by % Mr. Amos Shapir, amos@shum.huji.ac.il , contains short % and very clear description of algorithms. % \catcode`@=11 % ******************************************* % * REGISTERS, COMMAND, FORMATTING MACROS * % ******************************************* % % The command \Hebrewtoday produces today's date for Hebrew % calendar. It is similar to the \today command of the LETTER % style. In addition three numerical registers \Hebrewday % \Hebrewmonth and \Hebrewyear are set. % For setting this registers without producing of date string % command \Hebrewsetreg can be used. % The command \Hebrewdate{Gday}{Gmonth}{Gyear} produces Hebrew % calendar date corresponding to Gregorian date Gday.Gmonth.Gyear. % Three numerical registers \Hebrewday \Hebrewmonth and % \Hebrewyear are set. % For converting arbitrary Gregorian date Gday.Gmonth.Gyear % to Hebrew date Hday.Hmonth.Hyear without producing date string % the command: % \HebrewFromGregorian{Gday}{Gmonth}{Gyear}{Hday}{Hmonth}{Hyear} % can be used. % \newcount\Hebrewday \newcount\Hebrewmonth \newcount\Hebrewyear % % \Hebrewdate{Gday}{Gmonth}{Gyear} % ================================ % Hebrew calendar date corresponding to Gregorian Gday.Gmonth.Gyear \def\Hebrewdate #1#2#3{% \HebrewFromGregorian{#1}{#2}{#3} {\Hebrewday}{\Hebrewmonth}{\Hebrewyear}% \ifundefined{ifheb}% Hebrew fonts¯os are not loaded \FormatForEnglish{\Hebrewday}{\Hebrewmonth}{\Hebrewyear}% \else% \FormatDate{\Hebrewday}{\Hebrewmonth}{\Hebrewyear}% \fi }% % % \Hebrewtoday % ============ % Today's date in Hebrew calendar \def\Hebrewtoday{\Hebrewdate{\day}{\month}{\year}} \let\hebrewtoday=\Hebrewtoday % % \Hebrewsetreg % ============ % Set registers: today's date in hebrew calendar \def\Hebrewsetreg{% \HebrewFromGregorian{\day}{\month}{\year} {\Hebrewday}{\Hebrewmonth}{\Hebrewyear}% }% % % \FormatDate{Hebrewday}{Hebrewmonth}{Hebrewyear} % =============================================== \def\FormatDate #1#2#3{% \ifheb% Hebrew mode \FormatForHebrew{#1}{#2}{#3}% \else% English mode \FormatForEnglish{#1}{#2}{#3} \fi% }% % % TO PREPARE ANOTHER LANGUAGE VERSION CHANGE/ADD HERE !!! % % ====================== Hebrew macros =============================== % \def\HebrewYearChar{'} % % \HebrewYearName{year} % ===================== % Hebrew year as a string of Hebrew letters % 0 < year < 10000 \def\HebrewYearName #1{{% \def\HY{}% \count2 = #1% \Remainder{\count2}{10000}{#1}% macro for year <= 9999 \count2 = #1% \Remainder{\count2}{1000}{#1}% for 5752: #1 = 752 \divide \count2 by 1000 % for 5752: \count2 = 5 \ifnum\count2 = 5% \ifnum #1 = 0% \strcat{\HY}{\DigitInHebrew{\count2}}% output 5 only if year is 5000 \fi% \else% \strcat{\HY}{\DigitInHebrew{\count2}}% output 1000' if year is not 5... \fi% \ifnum #1 > 799 \strcat{\HY}{zz} \advance#1 by -800 \fi% \ifnum #1 > 399 \strcat{\HY}{z} \advance#1 by -400 \fi% \ifnum #1 > 299 \strcat{\HY}{y} \advance#1 by -300 \fi% \ifnum #1 > 199 \strcat{\HY}{x} \advance#1 by -200 \fi% \ifnum #1 > 99 \strcat{\HY}{w} \advance#1 by -100 \fi% \ifnum #1 > 0 % % % 15 and 16 are special exceptions % \ifnum #1 = 16% \strcat{\HY}{hf}% \else% \ifnum #1 = 15% \strcat{\HY}{he}% \else% \Remainder{#1}{10}{\count0}% \divide #1 by 10 % \ifnum #1 > 0 % #1 != 0 \strcat{\HY}{\TensInHebrew{#1}}% \fi% \ifnum \count0 > 0 % \strcat{\HY}{\DigitInHebrew{\count0}}% \fi% \fi% \fi% \fi% \count0=0 \expandafter\getlength\HY\end% \count0 = strlen(\HY) \ifnum\count0 < 2% \HY \HebrewYearChar% \else% \expandafter\Insert\HY% \fi% }}% % % \HebrewMonthName{month}{year} % ============================= % Name of month in the `year' \def\HebrewMonthName #1#2{% \ifnum #1 = 7% \CheckLeapHebrewYear{#2}% \if@HebrewLeap `cx a' \else `cx \fi% \else% \ifcase #1% Dummy \or% zyxi \or% gyeo \or% kqle \or% haz \or% yah \or% `cx `' \or% `cx a' \or% piqo \or% `iix \or% qieo \or% znef \or% `a \or% `lel % \fi % \fi % }% % % \HebrewDayName{day} % =============================== % Name of day in Hebrew letters. % \def\HebrewDayName #1{ \ifcase #1% Dummy \or% `' \or% a' \or% b' \or% c' \or% d' \or% e' \or% f' \or% g' \or% h' \or% i' \or% i`' \or% ia' \or% ib' \or% ic' \or% he' \or% hf' \or% if' \or% ig' \or% ih' \or% k' \or% k`' \or% ka' \or% kb' \or% kc' \or% kd' \or% ke' \or% kf' \or% kg' \or% kh' \or% l' \or% l`'% \fi } % % \DigitInHebrew{n} % ================= % Single digit 1 <= n <= 9 as Hebrew letter % short macro: % \def\DigitInHebrew #1{% % {\ifnum#1>0 \ifnum#1<10 \advance#1 by `\_ \char#1 \fi\fi}} % \def\DigitInHebrew #1{% \ifcase #1% % nothing for 0 \or `% 1 \or a% 2 \or b% 3 \or c% 4 \or d% 5 \or e% 6 \or f% 7 \or g% 8 \or h% 9 \fi% }% % % \TensInHebrew{num} % ================ % Convert 10*num ( 1 <= num <= 9 ) into single Hebrew letter \def\TensInHebrew #1{% \ifcase #1% % nothing for 0 \or i% 10 \or k% 20 \or l% 30 \or n% 40 \or p% 50 \or q% 60 \or r% 70 \or t% 80 \or v% 90 \fi% }% % % \FormatForHebrew{hday}{hmonth}{hyear} % ===================================== \def\FormatForHebrew #1#2#3{% \HebrewDayName{#1} \HebrewMonthName{#2}{#3},\HebrewYearName{#3}% }% % % English macros ================================== % % \HebrewMonthNameInEnglish{month}{year} % =============================== % Name of month in the `year' \def\HebrewMonthNameInEnglish #1#2{% \ifnum #1 = 7% \CheckLeapHebrewYear{#2}% \if@HebrewLeap Adar II \else Adar \fi% \else% \ifcase #1% Dummy \or% Tishrei \or% Heshvan \or% Kislev \or% Tebeth \or% Shebat \or% Adar I \or% Adar II \or% Nisan \or% Iyar \or% Sivan \or% Tammuz \or% Av \or% Elul% \fi % \fi % }% % % \FormatForEnglish{hday}{hmonth}{hyear} % ===================================== \def\FormatForEnglish #1#2#3{% \HebrewMonthNameInEnglish{#2}{#3} \number#1,\ \number#3% }% % % ******************************************* % * AUXILIARY MACROS * % ******************************************* % \newcount\@common % % \Remainder{a}{b}{c} % =================== % c = a%b == a - b(a/b) \def\Remainder #1#2#3{% #3 = #1% % c = a \divide #3 by #2% % c = a/b \multiply #3 by -#2% % c = -b(a/b) \advance #3 by #1% % c = a - b(a/b) }% % \newif\if@Divisible % % \CheckIfDivisible{a}{b} % ================== % Set \@Divisibletrue if a%b == 0 \def\CheckIfDivisible #1#2{% {% \countdef\tmp = 0% % \tmp == \count0 - temporary variable \Remainder{#1}{#2}{\tmp}% \ifnum \tmp = 0% \global\@Divisibletrue% \else% \global\@Divisiblefalse% \fi% }% }% % % \strcat{str1}{str2} % =================== % apend str2 to the end of macro str1 \def\strcat #1#2{\edef#1{#1#2}} % % \getlength{ string } % ==================== % Number of nonblank tokens % This macro is called if \count0==strlen('string') >= 2 % usage: {{\count0=0 \expandafter\getlength#1\end \number\count0}} \def\getlength #1{% \ifx#1\end% \let\next=\relax% \else% \advance\count0 by 1% \let\next=\getlength% \fi% \next% }% % % \Insert % ======= % Insert char <"> befor the last char and output 'string' % usage: {\def\abc{abc} \count0=0 \expandafter\getlength\abc\end % \expandafter\Insert\abc} \def\Insert #1{% \ifnum\count0 = 1% #1% \let\next=\relax% \else% #1% \ifnum\count0 = 2% '% \fi \advance\count0 by -1% \let\next=\Insert% \fi% \next% } % % \ifundefined{command} % ===================== % TeXbook, ex. 7.7 \ifundefined{command}\else\fi \def\ifundefined #1{\expandafter\ifx\csname#1\endcsname\relax} % % ******************************************* % * GREGORIAN PART * % ******************************************* % \newif\if@GregorianLeap % % \IfGregorianLeap{year} % ====================== % Conditional which is true if Gregorian `year' is % a leap year: % ( ( year%4 == 0 ) && ( year%100 != 0 ) || ( year%400 == 0 ) ) \def\IfGregorianLeap #1{% \CheckIfDivisible{#1}{4}% \if@Divisible% \CheckIfDivisible{#1}{100}% \if@Divisible% \CheckIfDivisible{#1}{400}% \if@Divisible% \@GregorianLeaptrue% \else% \@GregorianLeapfalse% \fi% \else% \@GregorianLeaptrue% \fi% \else% \@GregorianLeapfalse% \fi% \if@GregorianLeap% }% % % \GregorianDaysInPriorMonths{month}{year}{days} % =============================== % Number of days in months prior to `month' in the `year' \def\GregorianDaysInPriorMonths #1#2#3{% {% #3 = \ifcase #1% 0 \or % % no month number 0 0 \or 31 \or 59 \or 90 \or 120 \or 151 \or % 181 \or 212 \or 243 \or 273 \or 304 \or 334% \fi% \IfGregorianLeap{#2}% % in leap year ... \ifnum #1 > 2% % if month after February ... \advance #3 by 1% % add leap day \fi% \fi% \global\@common = #3% }% #3 = \@common% }% % % \GregorianDaysInPriorYears{year}{days} % =============================== % Number of days since 01.01.01 in years prior to the `year' \def\GregorianDaysInPriorYears #1#2{% {% \countdef\tmpc = 4% % \tmpc==\count4 \countdef\tmpb = 2% % \tmpb==\count2 \tmpb = #1% \advance \tmpb by -1% \tmpc = \tmpb% % \tmpc = \tmpb = year-1 \multiply \tmpc by 365% % Days in prior years = #2 = \tmpc% % = 365*(year-1) ... \tmpc = \tmpb% \divide \tmpc by 4% % \tmpc = (year-1)/4 \advance #2 by \tmpc% % ... plus Julian leap days ... \tmpc = \tmpb% % \divide \tmpc by 100% % \tmpc = (year-1)/100 \advance #2 by -\tmpc% % ... minus century years ... \tmpc = \tmpb% \divide \tmpc by 400% % \tmpc = (year-1)/400 \advance #2 by \tmpc% % ... plus 4-century years. \global\@common = #2% }% #2 = \@common% }% % % \AbsoluteFromGregorian{day}{month}{year}{absdate} % ====================== % Calculation of absolute date ( days since 01.01.01 ) from % Gregorian date day.month.year \def\AbsoluteFromGregorian #1#2#3#4{% {% \countdef\tmpd = 0% % \tmpd==\count0 #4 = #1% % days so far this month \GregorianDaysInPriorMonths{#2}{#3}{\tmpd}% \advance #4 by \tmpd% % add days in prior months \GregorianDaysInPriorYears{#3}{\tmpd}% \advance #4 by \tmpd% % add days in prior years \global\@common = #4% }% #4 = \@common% }% % \newif\if@GregorianLeap % % \IfGregorianLeap{year} % ====================== % Conditional which is true if Gregorian `year' is % a leap year: % ( ( year%4 == 0 ) && ( year%100 != 0 ) || ( year%400 == 0 ) ) \def\IfGregorianLeap #1{% \CheckIfDivisible{#1}{4}% \if@Divisible% \CheckIfDivisible{#1}{100}% \if@Divisible% \CheckIfDivisible{#1}{400}% \if@Divisible% \@GregorianLeaptrue% \else% \@GregorianLeapfalse% \fi% \else% \@GregorianLeaptrue% \fi% \else% \@GregorianLeapfalse% \fi% \if@GregorianLeap% }% % % \GregorianDaysInPriorMonths{month}{year}{days} % =============================== % Number of days in months prior to `month' in the `year' \def\GregorianDaysInPriorMonths #1#2#3{% {% #3 = \ifcase #1% 0 \or% % no month number 0 0 \or% 31 \or% 59 \or% 90 \or% 120 \or% 151 \or% 181 \or% 212 \or% 243 \or% 273 \or% 304 \or% 334% \fi% \IfGregorianLeap{#2}% \ifnum #1 > 2% % if month after February \advance #3 by 1% % add leap day \fi% \fi% \global\@common = #3% }% #3 = \@common% }% % % \GregorianDaysInPriorYears{year}{days} % =============================== % Number of days in years prior to the `year' \def\GregorianDaysInPriorYears #1#2{% {% \countdef\tmpc = 4% % \tmpc==\count4 \countdef\tmpb = 2% % \tmpb==\count2 \tmpb = #1% % \advance \tmpb by -1% % \tmpc = \tmpb% % \tmpc = \tmpb = year-1 \multiply \tmpc by 365% % Days in prior years = #2 = \tmpc% % = 365*(year-1) ... \tmpc = \tmpb% % \divide \tmpc by 4% % \tmpc = (year-1)/4 \advance #2 by \tmpc% % ... plus Julian leap days ... \tmpc = \tmpb% % \divide \tmpc by 100% % \tmpc = (year-1)/100 \advance #2 by -\tmpc% % ... minus century years ... \tmpc = \tmpb% % \divide \tmpc by 400% % \tmpc = (year-1)/400 \advance #2 by \tmpc% % ... plus 4-century years. \global\@common = #2% }% #2 = \@common% }% % % \AbsoluteFromGregorian{day}{month}{year}{absdate} % ====================== % Calculation of absolute date ( days since 01.01.0001 ) from % Gregorian date day.month.year \def\AbsoluteFromGregorian #1#2#3#4{% {% \countdef\tmpd = 0% % \tmpd==\count0 #4 = #1% % days so far this month \GregorianDaysInPriorMonths{#2}{#3}{\tmpd}% \advance #4 by \tmpd% % add days in prior months \GregorianDaysInPriorYears{#3}{\tmpd}% \advance #4 by \tmpd% % add days in prior years \global\@common = #4% }% #4 = \@common% }% % ******************************************* % * HEBREW PART * % ******************************************* % \newif\if@HebrewLeap % % \CheckLeapHebrewYear{year} % ====================== % Set \@HebrewLeaptrue if Hebrew `year' is % a leap year: if (1+7*year)%19 < 7 then true else false \def\CheckLeapHebrewYear #1{% {% \countdef\tmpa = 0% % \tmpa==\count0 \countdef\tmpb = 1% % \tmpb==\count1 % \tmpa = #1% \multiply \tmpa by 7% \advance \tmpa by 1% \Remainder{\tmpa}{19}{\tmpb}% \ifnum \tmpb < 7% % \tmpb = (7*year+1)%19 \global\@HebrewLeaptrue% \else% \global\@HebrewLeapfalse% \fi% }% }% % % \HebrewElapsedMonths{year}{months} % ============================== % Number of months elapsed from the Sunday prior to the start % of the Hebrew calendar to the mean conjunction of Tishri % of Hebrew `year' \def\HebrewElapsedMonths #1#2{% {% \countdef\tmpa = 0% % \tmpa==\count0 \countdef\tmpb = 1% % \tmpb==\count1 \countdef\tmpc = 2% % \tmpc==\count2 % \tmpa = #1% % \advance \tmpa by -1% % #2 = \tmpa% % #2 = \tmpa = year-1 \divide #2 by 19% % Number of complete Meton cycles \multiply #2 by 235% % #2 = 235*((year-1)/19) % \Remainder{\tmpa}{19}{\tmpb}% % \tmpa = years%19 - years this cycle \tmpc = \tmpb% % \multiply \tmpb by 12% % \advance #2 by \tmpb% % add regular months this cycle % \multiply \tmpc by 7% % \advance \tmpc by 1% % \divide \tmpc by 19% % \tmpc = (1+7*((year-1)%19))/19 - % % number of leap months this cycle \advance #2 by \tmpc% % add leap months % \global\@common = #2% }% #2 = \@common% }% % % \HebrewElapsedDays{year}{days} % ============================== % Number of days elapsed from the Sunday prior to the start % of the Hebrew calendar to the mean conjunction of Tishri % of Hebrew `year' \def\HebrewElapsedDays #1#2{% {% \countdef\tmpa = 0% % \tmpa==\count0 \countdef\tmpb = 1% % \tmpb==\count1 \countdef\tmpc = 2% % \tmpc==\count2 % \HebrewElapsedMonths{#1}{#2}% % \tmpa = #2% % \multiply \tmpa by 13753% % \advance \tmpa by 5604% % \tmpa=MonthsElapsed*13758 + 5604 \Remainder{\tmpa}{25920}{\tmpc}% % \tmpc == ConjunctionParts \divide \tmpa by 25920% % \multiply #2 by 29% \advance #2 by 1% \advance #2 by \tmpa% % #2 = 1 + MonthsElapsed*29 + % % PartsElapsed/25920 \Remainder{#2}{7}{\tmpa}% % \tmpa == DayOfWeek \ifnum \tmpc < 19440% \ifnum \tmpc < 9924% \else% % New moon at 9 h. 204 p. or later ... \ifnum \tmpa = 2% % on Tuesday ... \CheckLeapHebrewYear{#1}% % of a common year \if@HebrewLeap% \else% \advance #2 by 1% \fi% \fi% \fi% \ifnum \tmpc < 16789% \else% % New moon at 15 h. 589 p. or later ... \ifnum \tmpa = 1% % on Monday ... \advance #1 by -1% \CheckLeapHebrewYear{#1}% % at the end of leap year \if@HebrewLeap% \advance #2 by 1% \fi% \fi% \fi% \else% \advance #2 by 1% % new moon at or after midday \fi% % \Remainder{#2}{7}{\tmpa}% % \tmpa == DayOfWeek \ifnum \tmpa = 0% % if Sunday ... \advance #2 by 1% \else% % \ifnum \tmpa = 3% % Wednesday ... \advance #2 by 1% \else% \ifnum \tmpa = 5% % or Friday \advance #2 by 1% \fi% \fi% \fi% \global\@common = #2% }% #2 = \@common% }% % % \DaysInHebrewYear{year}{days} % ============================== % Number of days in Hebrew `year' \def\DaysInHebrewYear #1#2{% {% \countdef\tmpe = 12% % \tmpe==\count12 % \HebrewElapsedDays{#1}{\tmpe}% \advance #1 by 1% \HebrewElapsedDays{#1}{#2}% \advance #2 by -\tmpe% \global\@common = #2% }% #2 = \@common% }% % % \HebrewDaysInPriorMonths{month}{year}{days} % =============================== % Number of days in months prior to `month' in the `year' \def\HebrewDaysInPriorMonths #1#2#3{% {% \countdef\tmpf= 14% % \tmpf==\count14 % #3 = \ifcase #1% % Days in prior month of regular year 0 \or% % no month number 0 0 \or% % Tishri 30 \or% % Heshvan 59 \or% % Kislev 89 \or% % Tebeth 118 \or% % Shebat 148 \or% % Adar I 148 \or% % Adar II 177 \or% % Nisan 207 \or% % Iyar 236 \or% % Sivan 266 \or% % Tammuz 295 \or% % Av 325 \or% % Elul 400% % Dummy \fi% \CheckLeapHebrewYear{#2}% \if@HebrewLeap% % in leap year \ifnum #1 > 6% % if month after Adar I \advance #3 by 30% % add 30 days \fi% \fi% \DaysInHebrewYear{#2}{\tmpf}% \ifnum #1 > 3% \ifnum \tmpf = 353% % \advance #3 by -1% % \fi% % Short Kislev \ifnum \tmpf = 383% % \advance #3 by -1% % \fi% % \fi% % \ifnum #1 > 2% \ifnum \tmpf = 355% % \advance #3 by 1% % \fi% % Long Heshvan \ifnum \tmpf = 385% % \advance #3 by 1% % \fi% % \fi% \global\@common = #3% }% #3 = \@common% }% % % \AbsoluteFromHebrew{day}{month}{year}{days} % =============================== % Absolute date of Hebrew day,month,year \def\AbsoluteFromHebrew #1#2#3#4{% {% #4 = #1% \HebrewDaysInPriorMonths{#2}{#3}{#1}% \advance #4 by #1% % Add days in prior months this year \HebrewElapsedDays{#3}{#1}% \advance #4 by #1% % Add days in prior years \advance #4 by -1373429% % Subtract days before Gregorian 1.1.1 \global\@common = #4% }% #4 = \@common% }% % % \HebrewFromGregorian{Gday}{Gmonth}{Gyear}{Hday}{Hmonth}{Hyear} % =============================== % Evaluating Hebrew date Hday,Hmonth,Hyear from % Gregorian date Gday,Gmonth,Gyear \def\HebrewFromGregorian #1#2#3#4#5#6{% {% \countdef\tmpx= 17% % \tmpx==\count17 \countdef\tmpy= 18% % \tmpy==\count18 \countdef\tmpz= 19% % \tmpz==\count19 % #6 = #3% % \global\advance #6 by 3761% % approximation from above \AbsoluteFromGregorian{#1}{#2}{#3}{#4} % \tmpz = 1 \tmpy = 1% \AbsoluteFromHebrew{\tmpz}{\tmpy}{#6}{\tmpx}% \ifnum \tmpx > #4% % \global\advance #6 by -1% % Hyear = Gyear + 3760 \AbsoluteFromHebrew{\tmpz}{\tmpy}{#6}{\tmpx}% \fi% % \advance #4 by -\tmpx% % Days in this year \advance #4 by 1% % #5 = #4% % \divide #5 by 30% % Approximation for month from below \loop% % Search for month \HebrewDaysInPriorMonths{#5}{#6}{\tmpx}% \ifnum \tmpx < #4% \advance #5 by 1% \tmpy = \tmpx% \repeat% \global\advance #5 by -1% \global\advance #4 by -\tmpy% }% }% \catcode`@=12