French Republican calendar
Write a program to convert dates between the Gregorian calendar and the French Republican calendar.
The year 1 of the Republican calendar began on 22 September 1792. There were twelve months (Vendémiaire, Brumaire, Frimaire, Nivôse, Pluviôse, Ventôse, Germinal, Floréal, Prairial, Messidor, Thermidor, and Fructidor) of 30 days each, followed by five intercalary days or Sansculottides (Fête de la vertu / Virtue Day, Fête du génie / Talent Day, Fête du travail / Labour Day, Fête de l'opinion / Opinion Day, and Fête des récompenses / Honours Day). In leap years (the years 3, 7, and 11) a sixth Sansculottide was added: Fête de la Révolution / Revolution Day.
As a minimum, your program should give correct results for dates in the range from 1 Vendémiaire 1 = 22 September 1792 to 10 Nivôse 14 = 31 December 1805 (the last day when the Republican calendar was officially in use). If you choose to accept later dates, be aware that there are several different methods (described on the Wikipedia page) about how to determine leap years after the year 14. You should indicate which method you are using. (Because of these different methods, correct programs may sometimes give different results for dates after 1805.)
Test your program by converting the following dates both from Gregorian to Republican and from Republican to Gregorian:
• 1 Vendémiaire 1 = 22 September 1792
• 1 Prairial 3 = 20 May 1795
• 27 Messidor 7 = 15 July 1799 (Rosetta Stone discovered)
• Fête de la Révolution 11 = 23 September 1803
• 10 Nivôse 14 = 31 December 1805
BBC BASIC
Computes leap years using the "continuous" method: a year in the Republican calendar is a leap year if and only if the number of the following year is divisible by 4 but not by 100 unless also by 400. No attempt is made to deal with ill-formed or invalid input dates. <lang bbcbasic>REM >frrepcal
DIM gregorian$(11) DIM gregorian%(11) DIM republican$(11) DIM sansculottides$(5) gregorian$() = "January", "February", "March", "April", "May", "June", "July", "August", "September", "October", "November", "December" gregorian%() = 31, 28, 31, 30, 31, 30, 31, 31, 30, 31, 30, 31 REM 7-bit ASCII encoding, so no accents on French words republican$() = "Vendemiaire", "Brumaire", "Frimaire", "Nivose", "Pluviose", "Ventose", "Germinal", "Floreal", "Prairial", "Messidor", "Thermidor", "Fructidor" sansculottides$() = "Fete de la vertu", "Fete du genie", "Fete du travail", "Fete de l'opinion", "Fete des recompenses", "Fete de la Revolution"
PRINT "*** French Republican ***" PRINT "*** calendar converter ***" PRINT "Enter a date to convert, in the format 'day month year'" PRINT "e.g.: 1 Prairial 3," PRINT " 20 May 1795." PRINT "For Sansculottides, use 'day year'" PRINT "e.g.: Fete de l'opinion 9." PRINT "Or just press 'RETURN' to exit the program." PRINT REPEAT
INPUT LINE "> " src$
IF src$ <> "" THEN
PROC_split(src$, day%, month%, year%)
REM for simplicity, we assume that years up to 1791 are Republican
REM and years from 1792 onwards are Gregorian
IF year% < 1792 THEN
REM convert Republican date to number of days elapsed
REM since 21 September 1792, then convert that number
REM to the Gregorian date
PROC_day_to_gre(FN_rep_to_day(day%, month%, year%), day%, month%, year%)
PRINT; day%; " "; gregorian$(month% - 1); " " year%
ELSE
REM convert Gregorian date to Republican, via
REM number of days elapsed since 21 September 1792
PROC_day_to_rep(FN_gre_to_day(day%, month%, year%), day%, month%, year%)
IF month% = 13 THEN
PRINT sansculottides$(day% - 1); " "; year%
ELSE
PRINT; day%; " "; republican$(month% - 1); " "; year%
ENDIF
ENDIF
ENDIF
UNTIL src$ = "" END
DEF PROC_split(s$, RETURN d%, RETURN m%, RETURN y%) LOCAL month_and_year$, month$, months$(), i% DIM months$(11) IF LEFT$(s$, 4) = "Fete" THEN
m% = 13
FOR i% = 0 TO 5
IF LEFT$(s$, LEN sansculottides$(i%)) = sansculottides$(i%) THEN
d% = i% + 1
y% = VAL(RIGHT$(s$, LEN s$ - LEN sansculottides$(i%) - 1))
ENDIF
NEXT
ELSE
d% = VAL(LEFT$(s$, INSTR(s$, " ") - 1)) month_and_year$ = MID$(s$, INSTR(s$, " ") + 1) month$ = LEFT$(month_and_year$, INSTR(month_and_year$, " ") - 1) y% = VAL(MID$(month_and_year$, INSTR(month_and_year$, " ") + 1)) IF y% < 1792 THEN months$() = republican$() ELSE months$() = gregorian$() FOR i% = 0 TO 11 IF months$(i%) = month$ THEN m% = i% + 1 NEXT
ENDIF ENDPROC
DEF FN_gre_to_day(d%, m%, y%) REM modified & repurposed from code given at REM https://www.staff.science.uu.nl/~gent0113/calendar/isocalendar_text5.htm IF m% < 3 THEN
y% -= 1 m% += 12
ENDIF = INT(365.25 * y%) - INT(y% / 100) + INT(y% / 400) + INT(30.6 * (m% + 1)) + d% - 654842
DEF FN_rep_to_day(d%, m%, y%) REM assume that a year is a leap year iff the _following_ year is REM divisible by 4, but not by 100 unless also by 400 REM REM other methods for computing Republican leap years exist IF m% = 13 THEN
m% -= 1 d% += 30
ENDIF IF FN_rep_leap(y%) THEN d% -= 1 = 365 * y% + INT((y% + 1) / 4) - INT((y% + 1) / 100) + INT((y% + 1) / 400) + 30 * m% + d% - 395
DEF PROC_day_to_gre(day%, RETURN d%, RETURN m%, RETURN y%) y% = INT(day% / 365.25) d% = day% - INT(365.25 * y%) + 21 y% += 1792 d% += INT(y% / 100) - INT(y% / 400) - 13 m% = 8 WHILE d% > gregorian%(m%)
d% -= gregorian%(m%) m% += 1 IF m% = 12 THEN m% = 0 y% += 1 IF FN_gre_leap(y%) THEN gregorian%(1) = 29 ELSE gregorian%(1) = 28 ENDIF
ENDWHILE m% += 1 ENDPROC
DEF PROC_day_to_rep(day%, RETURN d%, RETURN m%, RETURN y%) LOCAL sansculottides% y% = INT(day% / 365.25) IF FN_rep_leap(y%) THEN y% -= 1 d% = day% - INT(365.25 * y%) + INT((y% + 1) / 100) - INT((y% + 1) / 400) y% += 1 m% = 1 IF FN_rep_leap(y%) THEN sansculottides% = 6 ELSE sansculottides% = 5 WHILE d% > 30
d% -= 30
m% += 1
IF m% = 13 THEN
IF d% > sansculottides% THEN
d% -= sansculottides%
m% = 1
y% += 1
ENDIF
ENDIF
ENDWHILE ENDPROC
DEF FN_rep_leap(year%) REM see comment at the beginning of FN_rep_to_day = ((year% + 1) MOD 4 = 0 AND ((year% + 1) MOD 100 <> 0 OR (year% + 1) MOD 400 = 0))
DEF FN_gre_leap(year%) = (year% MOD 4 = 0 AND (year% MOD 100 <> 0 OR year% MOD 400 = 0))</lang> Output for the test dates:
*** French Republican ***
*** calendar converter ***
Enter a date to convert, in the format 'day month year'
e.g.: 1 Prairial 3,
20 May 1795.
For Sansculottides, use 'day year'
e.g.: Fete de l'opinion 9.
Or just press 'RETURN' to exit the program.
> 1 Vendemiaire 1
22 September 1792
> 22 September 1792
1 Vendemiaire 1
> 1 Prairial 3
20 May 1795
> 20 May 1795
1 Prairial 3
> 27 Messidor 7
15 July 1799
> 15 July 1799
27 Messidor 7
> Fete de la Revolution 11
23 September 1803
> 23 September 1803
Fete de la Revolution 11
> 10 Nivose 14
31 December 1805
> 31 December 1805
10 Nivose 14
Output for a few subsequent dates:
> 18 March 1871 27 Ventose 79 > 25 August 1944 7 Fructidor 152 > 19 September 2016 Fete du travail 224
Go
A rather literal port, just for reference. Far from idiomatic Go. <lang go>package main
import (
"bufio" "fmt" "os" "strconv" "strings"
)
var (
gregorianStr = []string{"January", "February", "March",
"April", "May", "June",
"July", "August", "September",
"October", "November", "December"}
gregorian = []int{31, 28, 31, 30, 31, 30, 31, 31, 30, 31, 30, 31}
republicanStr = []string{"Vendemiaire", "Brumaire", "Frimaire",
"Nivose", "Pluviose", "Ventose",
"Germinal", "Floreal", "Prairial",
"Messidor", "Thermidor", "Fructidor"}
sansculottidesStr = []string{"Fete de la vertu", "Fete du genie",
"Fete du travail", "Fete de l'opinion",
"Fete des recompenses", "Fete de la Revolution"}
)
func main() {
fmt.Println("*** French Republican ***")
fmt.Println("*** calendar converter ***")
fmt.Println("Enter a date to convert, in the format 'day month year'")
fmt.Println("e.g.: 1 Prairial 3,")
fmt.Println(" 20 May 1795.")
fmt.Println("For Sansculottides, use 'day year'")
fmt.Println("e.g.: Fete de l'opinion 9.")
fmt.Println("Or just press 'RETURN' to exit the program.")
fmt.Println()
for sc := bufio.NewScanner(os.Stdin); ; {
fmt.Print("> ")
sc.Scan()
src := sc.Text()
if src == "" {
return
}
day, month, year := split(src)
if year < 1792 {
day, month, year = dayToGre(repToDay(day, month, year))
fmt.Println(day, gregorianStr[month-1], year)
} else {
day, month, year := dayToRep(greToDay(day, month, year))
if month == 13 {
fmt.Println(sansculottidesStr[day-1], year)
} else {
fmt.Println(day, republicanStr[month-1], year)
}
}
}
}
func split(s string) (d, m, y int) {
if strings.HasPrefix(s, "Fete") {
m = 13
for i, sc := range sansculottidesStr {
if strings.HasPrefix(s, sc) {
d = i + 1
y, _ = strconv.Atoi(s[len(sc)+1:])
}
}
} else {
d, _ = strconv.Atoi(s[:strings.Index(s, " ")])
my := s[strings.Index(s, " ")+1:]
mStr := my[:strings.Index(my, " ")]
y, _ = strconv.Atoi(my[strings.Index(my, " ")+1:])
months := gregorianStr
if y < 1792 {
months = republicanStr
}
for i, mn := range months {
if mn == mStr {
m = i + 1
}
}
}
return
}
func greToDay(d, m, y int) int {
if m < 3 {
y--
m += 12
}
return y*36525/100 - y/100 + y/400 + 306*(m+1)/10 + d - 654842
}
func repToDay(d, m, y int) int {
if m == 13 {
m--
d += 30
}
if repLeap(y) {
d--
}
return 365*y + (y+1)/4 - (y+1)/100 + (y+1)/400 + 30*m + d - 395
}
func dayToGre(day int) (d, m, y int) {
y = day * 100 / 36525
d = day - y*36525/100 + 21
y += 1792
d += y/100 - y/400 - 13
m = 8
for d > gregorian[m] {
d -= gregorian[m]
m++
if m == 12 {
m = 0
y++
if greLeap(y) {
gregorian[1] = 29
} else {
gregorian[1] = 28
}
}
}
m++
return
}
func dayToRep(day int) (d, m, y int) {
y = day * 100 / 36525
if repLeap(y) {
y--
}
d = day - y*36525/100 + (y+1)/100 - (y+1)/400
y++
m = 1
sansculottides := 5
if repLeap(y) {
sansculottides = 6
}
for d > 30 {
d -= 30
m += 1
if m == 13 {
if d > sansculottides {
d -= sansculottides
m = 1
y++
}
}
}
return
}
func repLeap(year int) bool {
return (year+1)%4 == 0 && ((year+1)%100 != 0 || (year+1)%400 == 0)
}
func greLeap(year int) bool {
return year%4 == 0 && (year%100 != 0 || year%400 == 0)
}</lang>
- Output:
$ go run frc.go
*** French Republican ***
*** calendar converter ***
Enter a date to convert, in the format 'day month year'
e.g.: 1 Prairial 3,
20 May 1795.
For Sansculottides, use 'day year'
e.g.: Fete de l'opinion 9.
Or just press 'RETURN' to exit the program.
> 1 Vendemiaire 1
22 September 1792
> 22 September 1792
1 Vendemiaire 1
> 1 Prairial 3
20 May 1795
> 20 May 1795
1 Prairial 3
> 27 Messidor 7
15 July 1799
> 15 July 1799
27 Messidor 7
> Fete de la Revolution 11
23 September 1803
> 23 September 1803
Fete de la Revolution 11
> 10 Nivose 14
31 December 1805
> 31 December 1805
10 Nivose 14
>
$
More idiomatic
A start anyway. Computations extracted to a package, a type defined for French Republican Dates, time package from standard library used. Ignores invalid input rather than panicking. <lang go>package frc
import (
"fmt" "strconv" "strings" "time"
)
type Date struct {
Year int Month int Day int
}
func (d Date) String() string {
if d.Month == 13 {
return fmt.Sprintf("%s %d", sansculotidesStr[d.Day-1], d.Year)
}
return fmt.Sprintf("%d %s %d", d.Day, republicanStr[d.Month-1], d.Year)
}
func Parse(s string) (dt Date, ok bool) {
f := strings.Fields(s)
var err error
switch {
case len(f) == 3:
if dt.Day, err = strconv.Atoi(f[0]); err != nil {
return
}
i := 0
for republicanStr[i] != f[1] {
i++
if i == len(republicanStr) {
return
}
}
dt.Month = i + 1
if dt.Year, err = strconv.Atoi(f[2]); err != nil {
return
}
ok = true
return
case len(f) > 3:
for i, sc := range sansculotidesStr {
if strings.HasPrefix(s, sc) {
dt.Month = 13
dt.Day = i + 1
dt.Year, err = strconv.Atoi(s[len(sc)+1:])
if err == nil {
ok = true
}
return
}
}
}
return
}
func (dt Date) ToGregorian() (y int, m time.Month, d int) {
yr, mn, dy := dayToGre(repToDay(dt.Day, dt.Month, dt.Year)) return yr, time.Month(mn), dy
}
func FromGregorian(y int, m time.Month, d int) Date {
day, month, year := dayToRep(greToDay(d, int(m), y))
return Date{Year: year, Month: month, Day: day}
} var (
gregorian = []int{31, 28, 31, 30, 31, 30, 31, 31, 30, 31, 30, 31}
republicanStr = []string{"Vendemiaire", "Brumaire", "Frimaire",
"Nivose", "Pluviose", "Ventose",
"Germinal", "Floreal", "Prairial",
"Messidor", "Thermidor", "Fructidor"}
sansculotidesStr = []string{"Fete de la vertu", "Fete du genie",
"Fete du travail", "Fete de l'opinion",
"Fete des recompenses", "Fete de la Revolution"}
)
func greToDay(d, m, y int) int {
if m < 3 {
y--
m += 12
}
return y*36525/100 - y/100 + y/400 + 306*(m+1)/10 + d - 654842
}
func repToDay(d, m, y int) int {
if m == 13 {
m--
d += 30
}
if repLeap(y) {
d--
}
return 365*y + (y+1)/4 - (y+1)/100 + (y+1)/400 + 30*m + d - 395
}
func dayToGre(day int) (d, m, y int) {
y = day * 100 / 36525
d = day - y*36525/100 + 21
y += 1792
d += y/100 - y/400 - 13
m = 8
for d > gregorian[m] {
d -= gregorian[m]
m++
if m == 12 {
m = 0
y++
if greLeap(y) {
gregorian[1] = 29
} else {
gregorian[1] = 28
}
}
}
m++
return
}
func dayToRep(day int) (d, m, y int) {
y = day * 100 / 36525
if repLeap(y) {
y--
}
d = day - y*36525/100 + (y+1)/100 - (y+1)/400
y++
m = 1
sansculottides := 5
if repLeap(y) {
sansculottides = 6
}
for d > 30 {
d -= 30
m += 1
if m == 13 {
if d > sansculottides {
d -= sansculottides
m = 1
y++
}
}
}
return
}
func repLeap(year int) bool {
return (year+1)%4 == 0 && ((year+1)%100 != 0 || (year+1)%400 == 0)
}
func greLeap(year int) bool {
return year%4 == 0 && (year%100 != 0 || year%400 == 0)
}</lang> <lang go>package main
import (
"bufio" "fmt" "os" "time"
"frc"
)
func main() {
fmt.Println("*** French Republican ***")
fmt.Println("*** calendar converter ***")
fmt.Println("Enter a date to convert, in the format 'day month year'")
fmt.Println("e.g.: 1 Prairial 3,")
fmt.Println(" 20 May 1795.")
fmt.Println("For Sansculottides, use 'day year'")
fmt.Println("e.g.: Fete de l'opinion 9.")
fmt.Println("Or just press 'RETURN' to exit the program.")
fmt.Println()
for sc := bufio.NewScanner(os.Stdin); ; {
fmt.Print("> ")
sc.Scan()
src := sc.Text()
if src == "" {
return
}
f, ok := frc.Parse(src)
if ok {
fmt.Println(f.ToGregorian())
continue
}
t, err := time.Parse(`2 January 2006`, src)
if err == nil {
fmt.Println(frc.FromGregorian(t.Date()))
}
}
}</lang>
Kotlin
<lang scala>// version 1.1.4-3
import java.time.format.DateTimeFormatter import java.time.LocalDate import java.time.temporal.ChronoUnit.DAYS
/* year = 1.. month = 1..13 day = 1..30 */ class FrenchRCDate(val year: Int, val month: Int, val day: Int) {
init {
require (year > 0 && month in 1..13)
if (month < 13) require (day in 1..30)
else {
val leap = isLeapYear(year)
require (day in (if (leap) 1..6 else 1..5))
}
}
override fun toString() =
if (month < 13) "$day ${months[month - 1]} $year"
else "${intercal[day - 1]} $year"
fun toLocalDate(): LocalDate {
var sumDays = 0L
for (i in 1 until year) sumDays += if (isLeapYear(i)) 366 else 365
val dayInYear = (month - 1) * 30 + day - 1
return introductionDate.plusDays(sumDays + dayInYear)
}
companion object {
/* uses the 'continuous method' for years after 1805 */
fun isLeapYear(y: Int): Boolean {
val yy = y + 1
return (yy % 4 == 0) && (yy % 100 != 0 || yy % 400 == 0)
}
fun parse(frcDate: String): FrenchRCDate {
val splits = frcDate.trim().split(' ')
if (splits.size == 3) {
val month = months.indexOf(splits[1]) + 1
require(month in 1..13)
val year = splits[2].toIntOrNull() ?: 0
require(year > 0)
val monthLength = if (month < 13) 30 else if (isLeapYear(year)) 6 else 5
val day = splits[0].toIntOrNull() ?: 0
require(day in 1..monthLength)
return FrenchRCDate(year, month, day)
}
else if (splits.size in 4..5) {
val yearStr = splits[splits.lastIndex]
val year = yearStr.toIntOrNull() ?: 0
require(year > 0)
val scDay = frcDate.trim().dropLast(yearStr.length + 1)
val day = intercal.indexOf(scDay) + 1
val maxDay = if (isLeapYear(year)) 6 else 5
require (day in 1..maxDay)
return FrenchRCDate(year, 13, day)
}
else throw IllegalArgumentException("Invalid French Republican date")
}
/* for convenience we treat 'Sansculottide' as an extra month with 5 or 6 days */
val months = arrayOf(
"Vendémiaire", "Brumaire", "Frimaire", "Nivôse", "Pluviôse", "Ventôse", "Germinal",
"Floréal", "Prairial", "Messidor", "Thermidor", "Fructidor", "Sansculottide"
)
val intercal = arrayOf(
"Fête de la vertu", "Fête du génie", "Fête du travail",
"Fête de l'opinion", "Fête des récompenses", "Fête de la Révolution"
)
val introductionDate = LocalDate.of(1792, 9, 22) }
}
fun LocalDate.toFrenchRCDate(): FrenchRCDate {
val daysDiff = DAYS.between(FrenchRCDate.introductionDate, this).toInt() + 1
if (daysDiff <= 0) throw IllegalArgumentException("Date can't be before 22 September 1792")
var year = 1
var startDay = 1
while (true) {
val endDay = startDay + if (FrenchRCDate.isLeapYear(year)) 365 else 364
if (daysDiff in startDay..endDay) break
year++
startDay = endDay + 1
}
val remDays = daysDiff - startDay
val month = remDays / 30
val day = remDays - month * 30
return FrenchRCDate(year, month + 1, day + 1)
}
fun main(args: Array<String>) {
val formatter = DateTimeFormatter.ofPattern("d MMMM yyyy")
val dates = arrayOf("22 September 1792", "20 May 1795", "15 July 1799", "23 September 1803",
"31 December 1805", "18 March 1871", "25 August 1944", "19 September 2016",
"22 September 2017", "28 September 2017")
val frcDates = Array<String>(dates.size) { "" }
for ((i, date) in dates.withIndex()) {
val thisDate = LocalDate.parse(date, formatter)
val frcd = thisDate.toFrenchRCDate()
frcDates[i] = frcd.toString()
println("${date.padEnd(25)} => $frcd")
}
// now process the other way around
println()
for (frcDate in frcDates) {
val thisDate = FrenchRCDate.parse(frcDate)
val lds = formatter.format(thisDate.toLocalDate())
println("${frcDate.padEnd(25)} => $lds")
}
}</lang>
- Output:
22 September 1792 => 1 Vendémiaire 1 20 May 1795 => 1 Prairial 3 15 July 1799 => 27 Messidor 7 23 September 1803 => Fête de la Révolution 11 31 December 1805 => 10 Nivôse 14 18 March 1871 => 27 Ventôse 79 25 August 1944 => 7 Fructidor 152 19 September 2016 => Fête du travail 224 22 September 2017 => 1 Vendémiaire 226 28 September 2017 => 7 Vendémiaire 226 1 Vendémiaire 1 => 22 September 1792 1 Prairial 3 => 20 May 1795 27 Messidor 7 => 15 July 1799 Fête de la Révolution 11 => 23 September 1803 10 Nivôse 14 => 31 December 1805 27 Ventôse 79 => 18 March 1871 7 Fructidor 152 => 25 August 1944 Fête du travail 224 => 19 September 2016 1 Vendémiaire 226 => 22 September 2017 7 Vendémiaire 226 => 28 September 2017
Perl
<lang perl> use Modern::Perl; use DateTime; my @month_names = qw{
Vendémiaire Brumaire Frimaire Nivôse Pluviôse Ventôse Germinal Floréal Prairial Messidor Thermidor Fructidor
}; my @intercalary = (
'Fête de la vertu', 'Fête du génie', 'Fête du travail', "Fête de l'opinion", 'Fête des récompenses', 'Fête de la Révolution',
); my %month_nums = map { $month_names[$_] => $_+1 } 0 .. $#month_names; my %i_cal_nums = map { $intercalary[$_] => $_+1 } 0 .. $#intercalary; my $i_cal_month = 13; my $epoch = DateTime->new( year => 1792, month => 9, day => 22 );
sub is_republican_leap_year {
my $y = $_[0] + 1; return !!( ($y % 4)==0 and (($y % 100)!=0 or ($y % 400)==0) );
}
sub Republican_to_Gregorian {
my ($rep_date) = @_;
state $months = join '|', map { quotemeta } @month_names;
state $intercal = join '|', map { quotemeta } @intercalary;
state $re = qr{
\A
\s* (?:
(?<ic> $intercal)
| (?<day> \d+) \s+ (?<month> $months)
)
\s+ (?<year> \d+)
\s*
\z
}msx;
$rep_date =~ /$re/
or die "Republican date not recognized: '$rep_date'";
my $day1 = $+{ic} ? $i_cal_nums{$+{ic}} : $+{day};
my $month1 = $+{month} ? $month_nums{$+{month}} : $i_cal_month;
my $year1 = $+{year};
my $days_since_epoch = ($year1-1) * 365 + ($month1-1) * 30 + ($day1-1);
my $leap_days = grep { is_republican_leap_year($_) } 1 .. $year1-1;
return $epoch->clone->add( days => ($days_since_epoch + $leap_days) );
}
sub Gregorian_to_Republican {
my ($greg_date) = @_;
my $days_since_epoch = $epoch->delta_days($greg_date)->in_units('days');
die if $days_since_epoch < 0;
my ( $year, $days ) = ( 1, $days_since_epoch );
while (1) {
my $year_length = 365 + ( is_republican_leap_year($year) ? 1 : 0 );
last if $days < $year_length;
$days -= $year_length;
$year += 1;
}
my $day0 = $days % 30;
my $month0 = ($days - $day0) / 30;
my ( $day1, $month1 ) = ( $day0 + 1, $month0 + 1 );
return $month1 == $i_cal_month
? "$intercalary[$day0 ] $year"
: "$day1 $month_names[$month0] $year";
}
while () {
s{\s*\#.+\n?\z}{};
/^(\d{4})-(\d{2})-(\d{2})\s+(\S.+?\S)\s*$/ or die;
my $g = DateTime->new( year => $1, month => $2, day => $3 ); my $r = $4;
die if Republican_to_Gregorian($r) != $g
or Gregorian_to_Republican($g) ne $r;
die if Gregorian_to_Republican(Republican_to_Gregorian($r)) ne $r
or Republican_to_Gregorian(Gregorian_to_Republican($g)) != $g;
} say 'All tests successful.';
__DATA__ 1792-09-22 1 Vendémiaire 1 1795-05-20 1 Prairial 3 1799-07-15 27 Messidor 7 1803-09-23 Fête de la Révolution 11 1805-12-31 10 Nivôse 14 1871-03-18 27 Ventôse 79 1944-08-25 7 Fructidor 152 2016-09-19 Fête du travail 224 1871-05-06 16 Floréal 79 # Paris Commune begins 1871-05-23 3 Prairial 79 # Paris Commune ends 1799-11-09 18 Brumaire 8 # Revolution ends by Napoléon coup 1804-12-02 11 Frimaire 13 # Republic ends by Napoléon coronation 1794-10-30 9 Brumaire 3 # École Normale Supérieure established 1794-07-27 9 Thermidor 2 # Robespierre falls 1799-05-27 8 Prairial 7 # Fromental Halévy born 1792-09-22 1 Vendémiaire 1 1793-09-22 1 Vendémiaire 2 1794-09-22 1 Vendémiaire 3 1795-09-23 1 Vendémiaire 4 1796-09-22 1 Vendémiaire 5 1797-09-22 1 Vendémiaire 6 1798-09-22 1 Vendémiaire 7 1799-09-23 1 Vendémiaire 8 1800-09-23 1 Vendémiaire 9 1801-09-23 1 Vendémiaire 10 1802-09-23 1 Vendémiaire 11 1803-09-24 1 Vendémiaire 12 1804-09-23 1 Vendémiaire 13 1805-09-23 1 Vendémiaire 14 1806-09-23 1 Vendémiaire 15 1807-09-24 1 Vendémiaire 16 1808-09-23 1 Vendémiaire 17 1809-09-23 1 Vendémiaire 18 1810-09-23 1 Vendémiaire 19 1811-09-24 1 Vendémiaire 20 2015-09-23 1 Vendémiaire 224 2016-09-22 1 Vendémiaire 225 2017-09-22 1 Vendémiaire 226 </lang>
- Output:
All tests successful.
Perl 6
<lang perl6>use v6; constant @month_names = <
Vendémiaire Brumaire Frimaire Nivôse Pluviôse Ventôse Germinal Floréal Prairial Messidor Thermidor Fructidor
>; constant @intercalary =
'Fête de la vertu', 'Fête du génie', 'Fête du travail', "Fête de l'opinion", 'Fête des récompenses', 'Fête de la Révolution',
constant %month_nums = %( @month_names Z=> 1..12 ); constant %i_cal_nums = %( @intercalary Z=> 1.. 6 ); constant $i_cal_month = 13; constant $epoch = Date.new: '1792-09-22';
sub is_republican_leap_year ( Int:D $year --> Bool ) {
my $y := $year + 1; return ?( $y %% 4 and ($y !%% 100 or $y %% 400) );
}
sub Republican_to_Gregorian ( Str:D $rep_date --> Date ) {
grammar Republican_date_text {
token day { \d+ }
token year { \d+ }
token ic { @intercalary }
token month { @month_names }
rule TOP { ^ [ <ic> | <day> <month> ] <year> $ }
}
Republican_date_text.parse($rep_date)
orelse die "Republican date not recognized: '$rep_date'";
my $day1 := $/<ic> ?? %i_cal_nums{~$/<ic>} !! +$/<day>;
my $month1 := $/<month> ?? %month_nums{~$/<month>} !! $i_cal_month;
my @ymd0 := ($/<year>, $month1, $day1) »-» 1; my $days_since_epoch := [+] @ymd0 Z* (365, 30, 1);
my $leap_days := +grep &is_republican_leap_year, 1 ..^ $/<year>; return $epoch + $days_since_epoch + $leap_days;
}
sub Gregorian_to_Republican ( Date:D $greg_date --> Str ) {
my $days_since_epoch := $greg_date - $epoch; die if $days_since_epoch < 0;
my ( $year, $days ) = 1, $days_since_epoch;
loop {
my $year_length = 365 + (1 if $year.&is_republican_leap_year);
last if $days < $year_length;
$days -= $year_length;
$year += 1;
}
my ( $day0, $month0 ) = $days.polymod( 30 ); my ( $day1, $month1 ) = ($day0, $month0) X+ 1;
return $month1 == $i_cal_month
?? "@intercalary[$day0 ] $year"
!! "$day1 @month_names[$month0] $year";
}
my @test_data =
( '1792-09-22', '1 Vendémiaire 1' ), ( '1795-05-20', '1 Prairial 3' ), ( '1799-07-15', '27 Messidor 7' ), ( '1803-09-23', 'Fête de la Révolution 11' ), ( '1805-12-31', '10 Nivôse 14' ),
( '1871-03-18', '27 Ventôse 79' ), ( '1944-08-25', '7 Fructidor 152' ), ( '2016-09-19', 'Fête du travail 224' ),
( '1871-05-06', '16 Floréal 79' ), # Paris Commune begins ( '1871-05-23', '3 Prairial 79' ), # Paris Commune ends ( '1799-11-09', '18 Brumaire 8' ), # Revolution ends by Napoléon coup ( '1804-12-02', '11 Frimaire 13' ), # Republic ends by Napoléon coronation ( '1794-10-30', '9 Brumaire 3' ), # École Normale Supérieure established ( '1794-07-27', '9 Thermidor 2' ), # Robespierre falls ( '1799-05-27', '8 Prairial 7' ), # Fromental Halévy born
( '1792-09-22', '1 Vendémiaire 1' ), ( '1793-09-22', '1 Vendémiaire 2' ), ( '1794-09-22', '1 Vendémiaire 3' ), ( '1795-09-23', '1 Vendémiaire 4' ), ( '1796-09-22', '1 Vendémiaire 5' ), ( '1797-09-22', '1 Vendémiaire 6' ), ( '1798-09-22', '1 Vendémiaire 7' ), ( '1799-09-23', '1 Vendémiaire 8' ), ( '1800-09-23', '1 Vendémiaire 9' ), ( '1801-09-23', '1 Vendémiaire 10' ), ( '1802-09-23', '1 Vendémiaire 11' ), ( '1803-09-24', '1 Vendémiaire 12' ), ( '1804-09-23', '1 Vendémiaire 13' ), ( '1805-09-23', '1 Vendémiaire 14' ), ( '1806-09-23', '1 Vendémiaire 15' ), ( '1807-09-24', '1 Vendémiaire 16' ), ( '1808-09-23', '1 Vendémiaire 17' ), ( '1809-09-23', '1 Vendémiaire 18' ), ( '1810-09-23', '1 Vendémiaire 19' ), ( '1811-09-24', '1 Vendémiaire 20' ), ( '2015-09-23', '1 Vendémiaire 224' ), ( '2016-09-22', '1 Vendémiaire 225' ), ( '2017-09-22', '1 Vendémiaire 226' ),
for @test_data -> ( $g_text, $r ) {
my $g = Date.new: $g_text;
die if Republican_to_Gregorian($r) != $g
or Gregorian_to_Republican($g) ne $r;
die if Gregorian_to_Republican(Republican_to_Gregorian($r)) ne $r
or Republican_to_Gregorian(Gregorian_to_Republican($g)) != $g;
} say 'All tests successful.';</lang>
- Output:
All tests successful.
Sidef
<lang ruby>require('DateTime')
var month_names = %w(
Vendémiaire Brumaire Frimaire Nivôse Pluviôse Ventôse Germinal Floréal Prairial Messidor Thermidor Fructidor
)
var intercalary = [
'Fête de la vertu',
'Fête du génie',
'Fête du travail',
"Fête de l'opinion",
'Fête des récompenses',
'Fête de la Révolution',
]
var i_cal_month = 13 var epoch = %O<DateTime>.new(year => 1792, month => 9, day => 22)
var month_nums = Hash(month_names.kv.map {|p| [p[1], p[0]+1] }.flat...) var i_cal_nums = Hash(intercalary.kv.map {|p| [p[1], p[0]+1] }.flat...)
func is_republican_leap_year(Number year) -> Bool {
var y = (year + 1) !!(4.divides(y) && (!100.divides(y) || 400.divides(y)))
}
func Republican_to_Gregorian(String rep_date) -> String {
static months = month_names.map { .escape }.join('|')
static intercal = intercalary.map { .escape }.join('|')
static re = Regex("^
\\s* (?:
(?<ic> #{intercal})
| (?<day> \\d+) \\s+ (?<month> #{months})
)
\\s+ (?<year> \\d+)
\\s*
\\z", 'x')
var m = (rep_date =~ re)
m || die "Republican date not recognized: '#{rep_date}'"
var ncap = m.named_captures
var day1 = Number(ncap{:ic} ? i_cal_nums{ncap{:ic}} : ncap{:day})
var month1 = Number(ncap{:month} ? month_nums{ncap{:month}} : i_cal_month)
var year1 = Number(ncap{:year})
var days_since_epoch = (365*(year1 - 1) + 30*(month1 - 1) + (day1 - 1))
var leap_days = (1 ..^ year1 -> grep { is_republican_leap_year(_) })
epoch.clone.add(days => (days_since_epoch + leap_days)).strftime("%Y-%m-%d")
}
func Gregorian_to_Republican(String greg_date) -> String {
var m = (greg_date =~ /^(\d{4})-(\d{2})-(\d{2})\z/)
m || die "Gregorian date not recognized: '#{greg_date}'"
var g = %O<DateTime>.new(year => m[0], month => m[1], day => m[2])
var days_since_epoch = epoch.delta_days(g).in_units('days')
days_since_epoch < 0 && die "unexpected error"
var (year, days) = (1, days_since_epoch)
loop {
var year_length = (365 + (is_republican_leap_year(year) ? 1 : 0))
days < year_length && break
days -= year_length
year += 1;
}
var day0 = (days % 30) var month0 = (days - day0)/30
var (day1, month1) = (day0 + 1, month0 + 1)
(month1 == i_cal_month
? "#{intercalary[day0]} #{year}"
: "#{day1} #{month_names[month0]} #{year}")
}
for line in DATA {
line.sub!(/\s*\#.+\R?\z/, )
var m = (line =~ /^(\d{4})-(\d{2})-(\d{2})\s+(\S.+?\S)\s*$/)
m || die "error for: #{line.dump}"
var g = "#{m[0]}-#{m[1]}-#{m[2]}"
var r = m[3]
var r2g = Republican_to_Gregorian(r) var g2r = Gregorian_to_Republican(g)
#say "#{r} -> #{r2g}"
#say "#{g} -> #{g2r}"
if ((g2r != r) || (r2g != g)) {
die "1-way error"
}
if ((Gregorian_to_Republican(r2g) != r) ||
(Republican_to_Gregorian(g2r) != g)
) {
die "2-way error"
}
}
say 'All tests successful.'
__DATA__ 1792-09-22 1 Vendémiaire 1 1795-05-20 1 Prairial 3 1799-07-15 27 Messidor 7 1803-09-23 Fête de la Révolution 11 1805-12-31 10 Nivôse 14 1871-03-18 27 Ventôse 79 1944-08-25 7 Fructidor 152 2016-09-19 Fête du travail 224 1871-05-06 16 Floréal 79 # Paris Commune begins 1871-05-23 3 Prairial 79 # Paris Commune ends 1799-11-09 18 Brumaire 8 # Revolution ends by Napoléon coup 1804-12-02 11 Frimaire 13 # Republic ends by Napoléon coronation 1794-10-30 9 Brumaire 3 # École Normale Supérieure established 1794-07-27 9 Thermidor 2 # Robespierre falls 1799-05-27 8 Prairial 7 # Fromental Halévy born 1792-09-22 1 Vendémiaire 1 1793-09-22 1 Vendémiaire 2 1794-09-22 1 Vendémiaire 3 1795-09-23 1 Vendémiaire 4 1796-09-22 1 Vendémiaire 5 1797-09-22 1 Vendémiaire 6 1798-09-22 1 Vendémiaire 7 1799-09-23 1 Vendémiaire 8 1800-09-23 1 Vendémiaire 9 1801-09-23 1 Vendémiaire 10 1802-09-23 1 Vendémiaire 11 1803-09-24 1 Vendémiaire 12 1804-09-23 1 Vendémiaire 13 1805-09-23 1 Vendémiaire 14 1806-09-23 1 Vendémiaire 15 1807-09-24 1 Vendémiaire 16 1808-09-23 1 Vendémiaire 17 1809-09-23 1 Vendémiaire 18 1810-09-23 1 Vendémiaire 19 1811-09-24 1 Vendémiaire 20 2015-09-23 1 Vendémiaire 224 2016-09-22 1 Vendémiaire 225 2017-09-22 1 Vendémiaire 226</lang>
- Output:
All tests successful.