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A guide for Date/Time conversion in Ballerina Language

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Ballerina is an open-source general-purpose programming language which is developed by WSO2. Ballerina mainly focuses on Cloud-native application development; hence, it has a simple but powerful programming model that uses a wide variety of standard libraries to carry out the necessary tasks. From the available libraries, the time library of Ballerina provides a set of APIs that have the capabilities to generate and manipulate UTC and localized time. Currently, the time library supports RFC 3339 and RFC 5322 time formats for the representation of date/time.  This article focuses on the string manipulations required for the conversion of widely used time formats into ballerina time representations.

Time formats used in Ballerina

Ballerina supports RFC 3339 format, a profile of the ISO 8601 standards, and RFC 5322 time format, also known as the email time, in time-related to input and outputs. Following are the examples of accepted string time formats.

RFC 3339 :

2016-6-01T14:41:36.00Z 
2016-6-01 14:41:36.00Z 
2016-6-01T14:41:36.00+07:00 
2016-6-01T14:41:36.00+00:00

RFC 5322 :

Wed, 9 Mar 2021 19:51:55 -0800 
Wed, 9 Mar 2021 19:51:55 0

As many applications support other date/time formats, this document will act as a guide for string manipulations required for the conversion of other date/time formats of the user to ballerina types and vice-versa.

Other commonly used time formats.

Miscellaneous Date/Time formats

In modern day tasks, basic formats like “DD/MM/YYYY” and “YYYY-MM-DD” are used to express dates without any specific time or time zone. Following is an example of such an instance.

# converts 01/12/2015 time string to time:Date
#
# + sValue - String Date.
# + return - Date record.
function dateFromBasicString(string sValue) returns time:Date|error {
   string[] splittedValues = regex:split(sValue.trim(), "/");
   int day = check int:'fromString(splittedValues[0]);
   int month = check int:'fromString(splittedValues[1]);
   int year = check int:'fromString(splittedValues[2]);
   return {year, month, day};
}

# converts time:Date value to 01/12/2015 format.
#
# + sValue - Date value.
# + return - string value.
function dateToBasicString(time:Date time) returns string|error {
   string year = time.year.toString();
   string month = time.month < 10 ? string `0${time.month}` : time.month.toString();
   string date = time.day < 10 ? string `0${time.day}` : time.day.toString();
   return string `${date}/${month}/${year}`;
}

Following the above similar approach, we can change other basic date formats like “YYYY-MM-DD”, etc.

This is the same for the instances with only the time information like HH:MM:SS These types of elements can be handled using `time:Date` type and `time:TimeOfDay`

# converts 22:30:46 time string to time:TimeOfDay
#
# + sValue - String time .
# + return - time record.
function timefromBasicString(string sValue) returns time:TimeOfDay|error {
  string[] splittedValues = regex:split(sValue.trim(), ":");
  int hour = check int:'fromString(splittedValues[0]);
  int minute = check int:'fromString(splittedValues[1]);
  time:Seconds second = check decimal:'fromString(splittedValues[2]);
  return {hour, minute, second};
}
 
# converts time:TimeOfDay value to 22:30:46 format.
#
# + sValue - String time .
# + return - time record.
function timeToBasicString(time:TimeOfDay time) returns string|error {
   string hour = time.hour < 10 ? string `0${time.hour}` : time.hour.toString();
   string minute = time.minute < 10 ? string `0${time.minute}` : time.minute.toString();
 
   decimal? seconds = time.second;
   string second = seconds is () ? "00" : (seconds < 10.0d ? string `0${seconds}` : seconds.toString());
   return string `${hour}:${minute}:${second}`;
}

Since we now have the understanding of how to convert basic date/time formats to Ballerina types and vice versa, Let’s look at some advanced date/time standard formats with time zone information.

ISO 8601

This is the standard implemented by ISO 8601, and  RFC 3339 is a profile of this standard, which removes the necessity to convert all accepted standards in ISO 8601. some of the examples of the accepted string time formats in ISO 8601.

2016-06-01T14:41:36-08:00 
2016-06-01T14:41:36.123-08:00 
2022-07-12T05:42:35Z 
20220712T054235Z

Since three out of four cases are accepted in ballerina, only the 4th format requires explicit conversion. The following code segment can be used for the conversion.

# Converts 20220712T054235Z time string to time:Civil
#
# + sValue - ISO 8601 string time value.
# + return - Converted time:Civil record.
function civilFromIso8601(string sValue) returns time:Civil|error {
 
   string[] splittedValues = regex:split(sValue, "T");
   time:ZoneOffset utcOffset;
   int year = check int:fromString(splittedValues[0].substring(0, 4));
   int month = check int:fromString(splittedValues[0].substring(4, 6));
   int day = check int:fromString(splittedValues[0].substring(6, 8));
   int hour = check int:fromString(splittedValues[1].substring(0, 2));
   int minute = check int:fromString(splittedValues[1].substring(2, 4));
   time:Seconds second = check decimal:fromString(splittedValues[1].substring(4, 6));
   string zoneString = splittedValues[1].substring(6, splittedValues[1].length());
   if (zoneString == "Z") {
       utcOffset = {
           hours: 0,
           minutes: 0
       };
   } else {
       int sign = zoneString.substring(0, 1) == "-" ? -1 : 1;
       utcOffset = {
           hours: sign * check int:fromString(zoneString.substring(1, 3)),
           minutes: sign * check int:fromString(zoneString.substring(3, 5))
       };
   }
   return {year, month, day, hour, minute, second, utcOffset};
}
 
# Converts time:Civil time to string 20220712T054235Z
#
# + time - time:Civil time record.
# + return - Converted ISO 8601 string.
function civilToIso8601(time:Civil time) returns string|error {
   string year = time.year.toString();
   string month = time.month < 10 ? string `0${time.month}` : time.month.toString();
   string day = time.day < 10 ? string `0${time.day}` : time.day.toString();
   string hour = time.hour < 10 ? string `0${time.hour}` : time.hour.toString();
   string minute = time.minute < 10 ? string `0${time.minute}` : time.minute.toString();
 
   decimal? seconds = time.second;
   string second = seconds is () ? "00" : (seconds < 10.0d ? string `0${seconds}` : seconds.toString());
 
   time:ZoneOffset? zoneOffset = time.utcOffset;
   string timeZone = "Z";
   if zoneOffset is time:ZoneOffset {
       if zoneOffset.hours == 0 && zoneOffset.minutes == 0 {
           timeZone = "Z";
       } else {
           string hours = zoneOffset.hours.abs() < 10 ? string `0${zoneOffset.hours.abs()}` : zoneOffset.hours.abs().toString();
           string minutes = zoneOffset.minutes.abs() < 10 ? string `0${zoneOffset.minutes.abs()}` : zoneOffset.minutes.abs().toString();
           timeZone = zoneOffset.hours < 0 ? string `-${hours}${minutes}` : string `+${hours}${minutes}`;
       }
   }
   return string `${year}${month}${day}T${hour}${minute}${second}${timeZone}`;
}

RFC 2822

This is a standard used in Internet Message Formats to uniformly represent date and time, including in HTTP and email headers. This is somewhat similar to RFC 5322; the following code can convert the string into RFC 3339 format and vice-versa. Please note we assume email time is used as input to the reverse function.

Accepted Format : 01 Jun 2016 14:41:36 -0800

function indexToShortname(int index) returns string {
   match index {
       1 => { return "Jan"; }
       2 => { return "Feb"; }
       3 => { return "Mar"; }
       4 => { return "Apr"; }
       5 => { return "May"; }
       6 => { return "Jun"; }
       7 => { return "Jul"; }
       8 => { return "Aug"; }
       9 => { return "Sep"; }
       10 => { return "Oct"; }
       11 => { return "Nov"; }
       12 => { return "Dec"; }
       _ => { return ""; }
   }
}
 
​​function shortnameToIndex(string shortname) returns int {
   match shortname.toLowerAscii() {
       "jan" => { return 1; }
       "feb" => { return 2; }
       "mar" => { return 3; }
       "apr" => { return 4; }
       "may" => { return 5; }
       "jun" => { return 6; }
       "jul" => { return 7; }
       "aug" => { return 8; }
       "sep" => { return 9; }
       "oct" => { return 10; }
       "nov" => { return 11; }
       "dec" => { return 12; }
       _ => { return 0; }
   }
}
# Converts "01 Jun 2016 14:41:36 -0800" time string to time:Civil
#
# + sValue - RFC 2822 string time value.
# + return - Converted time:Civil record.
function civilFromRfc2822(string sValue) returns time:Civil|error {
   string[] splittedValues = regex:split(sValue.trim(), " ");
   int year = check int:fromString(splittedValues[2]);
   int month = shortnameToIndex(splittedValues[1]);
   int day = check int:fromString(splittedValues[0]);
 
   string[] timeParts = regex:split(splittedValues[3], ":");
   int hour = check int:fromString(timeParts[0]);
   int minute = check int:fromString(timeParts[1]);
   time:Seconds second = check decimal:fromString(timeParts[2]);
 
   string zoneString = splittedValues[4];
   int sign = zoneString.substring(0, 1) == "-" ? -1 : 1;
   time:ZoneOffset utcOffset = {
       hours: sign * check int:fromString(zoneString.substring(1, 3)),
       minutes: sign * check int:fromString(zoneString.substring(3, 5))
   };
   return {year, month, day, hour, minute, second, utcOffset};
}
 
# Converts time:Civil time to string 01 Jun 2016 14:41:36 -0800
#
# + time - time:Civil time record.
# + return - Converted RFC 2822 string.
function civilToRfc2822(time:Civil time) returns string|error {
   string year = time["year"].toString();
   string month = indexToShortname(time["month"]);
   string day = (time["day"] < 10 ? string `0${time.day}` : time["day"].toString());
   string hour = (time["hour"] < 10 ? string `0${time.hour}` : time["hour"].toString());
   string minute = (time["minute"] < 10 ? string `0${time.minute}` : time["minute"].toString());
   decimal? seconds = time["second"];
   string second = (seconds is () ? "00" : (seconds < 10.0d ? string `0${seconds}` : seconds.toString()));
   var hours = time.utcOffset["hours"];
   var minutes = time.utcOffset["minutes"];
   string timeZone;
   if (hours !is () && minutes !is ()) {
       if (hours == 0 && minutes == 0) {
           timeZone = "+0000";
       } else {
           timeZone = (hours < 0 ? "-" : "+") + ('int:abs(hours) < 10 ? string `0${'int:abs(hours)}` : 'int:abs(hours).toString()) +
           ('int:abs(minutes) < 10 ? string `0${'int:abs(minutes)}` : 'int:abs(minutes).toString());
       }
   return string `${day} ${month} ${year} ${hour}:${minute}:${second} ${timeZone}`;
   }
   return string `${day} ${month} ${year} ${hour}:${minute}:${second} +0000`;
 
}

RFC 7231

Time format was introduced with HTTP standards. The accepted formats are similar to the RFC 5322 format, except all the times are expressed in UTC/GMT. The following code segment can be used to convert the string to the ballerina accepted string format and vice-versa. Please note we assume email time in UTC is used as input to the reverse function.

Accepted format:

Wed, 01 Jun 2016 14:41:36 GMT  
Wed, 01 Jun 2016 14:41:36 UTC

​​function shortnameToIndex(string shortname) returns int {
   match shortname.toLowerAscii() {
       "jan" => { return 1; }
       "feb" => { return 2; }
       "mar" => { return 3; }
       "apr" => { return 4; }
       "may" => { return 5; }
       "jun" => { return 6; }
       "jul" => { return 7; }
       "aug" => { return 8; }
       "sep" => { return 9; }
       "oct" => { return 10; }
       "nov" => { return 11; }
       "dec" => { return 12; }
       _ => { return 0; }
   }
}

# Converts "Wed, 01 Jun 2016 14:41:36 GMT" time string to time:Civil
#
# + sValue - RFC 7231 string time value.
# + return - Converted time:Civil record.
function civilFromRfc7231(string sValue) returns time:Civil|error {
   string[] splittedValues = regex:split(sValue.trim(), " ");
   int year = check int:fromString(splittedValues[3]);
   int month = shortnameToIndex(splittedValues[2]);
   int day = check int:fromString(splittedValues[1]);
 
   string[] timeValues = regex:split(splittedValues[4], ":");
   int hour = check int:fromString(timeValues[0]);
   int minute = check int:fromString(timeValues[1]);
   time:Seconds second = check decimal:fromString(timeValues[2]);
   time:ZoneOffset utcOffset = {
       hours: 0,
       minutes: 0
   };
   return {year, month, day, hour, minute, second, utcOffset};
  
}
 
# Converts time:Civil time to string Wed, 01 Jun 2016 14:41:36 GMT
#
# + time - time:Civil time record.
# + return - Converted RFC 7231 string.
function civilToRfc7231(time:Civil time) returns string|error {
   string year = time["year"].toString();
   string month = indexToShortname(time["month"]);
   string date = (time["day"] < 10 ? string `0${time["day"]}` : time["day"].toString());
   string hour = (time["hour"] < 10 ? string `0${time["hour"]}` : time["hour"].toString());
   string minute = (time["minute"] < 10 ? string `0${time["minute"]}` : time["minute"].toString());
   decimal? seconds = time["second"];
   string second = (seconds is () ? "00" : (seconds < 10.0d ? string `0${seconds}` : seconds.toString()));
   time:DayOfWeek day = time:dayOfWeek({year: time["year"], month: time["month"], day: time["day"]});
   string? dayString = intToDay(day);
   if dayString is () {
       return error("Date is not valid!");
   } else {
       return string `${dayString.substring(0, 3)}, ${date} ${month} ${year} ${hour}:${minute}:${second} GMT`;
   }
}

RFC 822

This is a legacy date/time format introduced by IETF and was obsoleted by RFC 1123 standard. Following are the accepted formats. All the time/dates are recorded with respect to the Greenwich Mean Time(GMT) zone. The following code segment can be used to convert the string to the ballerina accepted string format and vice-versa. Please note here it’s assumed that email time in UTC is used as input to the reverse function.

Accepted format:

Sun, 06 Nov 1994 08:49:37 GMT

​​function shortnameToIndex(string shortname) returns int {
   match shortname.toLowerAscii() {
       "jan" => { return 1; }
       "feb" => { return 2; }
       "mar" => { return 3; }
       "apr" => { return 4; }
       "may" => { return 5; }
       "jun" => { return 6; }
       "jul" => { return 7; }
       "aug" => { return 8; }
       "sep" => { return 9; }
       "oct" => { return 10; }
       "nov" => { return 11; }
       "dec" => { return 12; }
       _ => { return 0; }
   }
}

# Converts "Sun, 06 Nov 1994 08:49:37 GMT" time string to time:Civil
#
# + sValue - RFC 822 string time value.
# + return - Converted time:Civil record.
function civilFromRfc822(string sValue) returns time:Civil|error {
   string[] splittedValues = regex:split(sValue.trim(), " ");
   int year = check int:fromString(splittedValues[3]);
   int month = shortnameToIndex(splittedValues[2]);
   int day = check int:fromString(splittedValues[1]);
 
   string[] timeValues = regex:split(splittedValues[4], ":");
   int hour = check int:fromString(timeValues[0]);
   int minute = check int:fromString(timeValues[1]);
   time:Seconds second = check decimal:fromString(timeValues[2]);
   time:ZoneOffset utcOffset = {
       hours: 0,
       minutes: 0
   };
   return {year, month, day, hour, minute, second, utcOffset};
}
 
# Converts time:Civil time to string "Sun, 06 Nov 1994 08:49:37 GMT"
#
# + time - time:Civil time record.
# + return - Converted RFC 822 string.
function civilToRfc822(time:Civil time) returns string|error {
   string year = time["year"].toString();
   string month = indexToShortname(time["month"]);
   string date = (time["day"] < 10 ? string `0${time["day"]}` : time["day"].toString());
   string hour = (time["hour"] < 10 ? string `0${time["hour"]}` : time["hour"].toString());
   string minute = (time["minute"] < 10 ? string `0${time["minute"]}` : time["minute"].toString());
   decimal? seconds = time["second"];
   string second = (seconds is () ? "00" : (seconds < 10.0d ? string `0${seconds}` : seconds.toString()));
   time:DayOfWeek day = time:dayOfWeek({year: time["year"], month: time["month"], day: time["day"]});
   string? dayString = intToDay(day);
   if dayString is () {
       return error("Date is not valid!");
   } else {
       return string `${dayString.substring(0, 3)}, ${date} ${month} ${year} ${hour}:${minute}:${second} GMT`;
   }
}

RFC 850

This is a  legacy date/ time format introduced by IETF and was obsoleted by RFC 1036. All the time/dates are recorded with respect to the Greenwich Mean Time(GMT) zone, and this time format can get buggy due to the shortened year. The following code segment can be used to convert the string to the ballerina accepted string format and vice-versa. Please note we assume email time in UTC is used as input to the reverse function.

Accepted format:

Sunday, 06-Nov-94 08:49:37 GMT


​​function shortnameToIndex(string shortname) returns int {
   match shortname.toLowerAscii() {
       "jan" => { return 1; }
       "feb" => { return 2; }
       "mar" => { return 3; }
       "apr" => { return 4; }
       "may" => { return 5; }
       "jun" => { return 6; }
       "jul" => { return 7; }
       "aug" => { return 8; }
       "sep" => { return 9; }
       "oct" => { return 10; }
       "nov" => { return 11; }
       "dec" => { return 12; }
       _ => { return 0; }
   }
}

# Converts "Sunday, 06-Nov-94 08:49:37 GMT" time string to time:Civil
#
# + sValue - RFC 850 string time value.
# + return - Converted time:Civil record.
function civilFromRfc850(string sValue) returns time:Civil|error {
   string[] splittedValues = regex:split(sValue.trim(), " ");
   string[] dateValues = regex:split(splittedValues[1].trim(), "-");
   int year = 1900 + check int:fromString(dateValues[2]);
   int month = shortnameToIndex(dateValues[1]);
   int day = check int:fromString(dateValues[0]);
 
   string[] time = regex:split(splittedValues[2], ":");
   int hour = check int:fromString(time[0]);
   int minute = check int:fromString(time[1]);
   time:Seconds second = check decimal:fromString(time[2]);
   time:ZoneOffset utcOffset = {
       hours: 0,
       minutes: 0
   };
   return {year, month, day, hour, minute, second, utcOffset};
}
 
# Converts time:Civil time to string "Sunday, 06-Nov-94 08:49:37 GMT"
#
# + time - time:Civil time record.
# + return - Converted RFC 850 string.
function civilToRfc850(time:Civil time) returns string|error {
   string year = time["year"].toString();
   string month = indexToShortname(time["month"]);
   string date = (time["day"] < 10 ? string `0${time["day"]}` : time["day"].toString());
   string hour = (time["hour"] < 10 ? string `0${time["hour"]}` : time["hour"].toString());
   string minute = (time["minute"] < 10 ? string `0${time["minute"]}` : time["minute"].toString());
   decimal? seconds = time["second"];
   string second = (seconds is () ? "00" : (seconds < 10.0d ? string `0${seconds}` : seconds.toString()));
   time:DayOfWeek day = time:dayOfWeek({year: time["year"], month: time["month"], day: time["day"]});
   string? dayString = dayMap[day.toString()];
   if dayString is () {
       return error("Date is not valid!");
   } else {
       return string `${dayString}, ${date}-${month}-${year.substring(2, 4)} ${hour}:${minute}:${second} GMT`;
   }
}

ANCI C asctime()

A legacy date/ time format is used in ANSI C asctime function. All time/dates are recorded in UTC. The following code segment can be used to convert the string to the ballerina accepted string format and vice-versa. Please note we assume email time in UTC is used as input to the reverse function.

Accepted format:

Wed Jun  1 14:41:36 2016


​​function shortnameToIndex(string shortname) returns int {
   match shortname.toLowerAscii() {
       "jan" => { return 1; }
       "feb" => { return 2; }
       "mar" => { return 3; }
       "apr" => { return 4; }
       "may" => { return 5; }
       "jun" => { return 6; }
       "jul" => { return 7; }
       "aug" => { return 8; }
       "sep" => { return 9; }
       "oct" => { return 10; }
       "nov" => { return 11; }
       "dec" => { return 12; }
       _ => { return 0; }
   }
}


# Converts "Wed Jun 1 14:41:36 2016" time string to time:Civil
#
# + sValue - ANCI C string time value.
# + return - Converted time:Civil record.
function civilFromAnciC(string sValue) returns time:Civil|error {
   string[] splittedValues = regex:split(sValue.trim(), " ");
   int year = check int:fromString(splittedValues[4]);
   int month = shortnameToIndex(splittedValues[1]);
   int day = check int:fromString(splittedValues[2]);
 
   string[] time = regex:split(splittedValues[3], ":");
   int hour = check int:fromString(time[0]);
   int minute = check int:fromString(time[1]);
   time:Seconds second = check decimal:fromString(time[2]);
   time:ZoneOffset utcOffset = {
       hours: 0,
       minutes: 0
   };
   return {year, month, day, hour, minute, second, utcOffset};
}


# Converts time:Civil time to string Wed Jun 1 14:41:36 2016
#
# + time - time:Civil time record.
# + return - Converted ANCI C string.
function civilToAnciC(time:Civil time) returns string|error {
   string year = time["year"].toString();
   string month = indexToShortname(time["month"]);
   string date = time["day"].toString();
   string hour = (time["hour"] < 10 ? string `0${time["hour"]}`  : time["hour"].toString());
   string minute = (time["minute"] < 10 ? string `0${time["minute"]}` : time["minute"].toString());
   decimal? seconds = time["second"];
   string second = (seconds is () ? "00" : (seconds < 10.0d ? string `0${seconds}` : seconds.toString()));
   time:DayOfWeek day = time:dayOfWeek({year: time["year"], month: time["month"], day: time["day"]});
   string? dayString = intToDay(day);
   if dayString is () {
       return error("Date is not valid!");
   } else {
       return string `${dayString.substring(0, 3)} ${month} ${date} ${hour}:${minute}:${second} ${year}`;
   }
}

RFC 1036

This was introduced as the standard for Interchange of USENET Messages. This time format might introduce bugs due to the shortened year format, and compared to `RFC 850`, which uses the same year format, the time here is expressed in local timezones. The following code segment can be used to convert the string to the ballerina accepted string format and vice-versa.

Accepted format:

Mon, 15 Aug 05 15:52:01 +0000

​​function shortnameToIndex(string shortname) returns int {
   match shortname.toLowerAscii() {
       "jan" => { return 1; }
       "feb" => { return 2; }
       "mar" => { return 3; }
       "apr" => { return 4; }
       "may" => { return 5; }
       "jun" => { return 6; }
       "jul" => { return 7; }
       "aug" => { return 8; }
       "sep" => { return 9; }
       "oct" => { return 10; }
       "nov" => { return 11; }
       "dec" => { return 12; }
       _ => { return 0; }
   }
}

# Converts "Mon, 15 Aug 05 15:52:01 +0000" time string to time:Civil
#
# + sValue - RFC 1036 string time value.
# + return - Converted time:Civil record.
function civilFromRfc1036(string sValue) returns time:Civil|error {
   string[] splittedValues = regex:split(sValue.trim(), " ");
   int year = 2000 + check int:fromString(splittedValues[3]);
   int month = shortnameToIndex(splittedValues[2]);
   int day = check int:fromString(splittedValues[1]);
 
   string[] time = regex:split(splittedValues[4], ":");
   int hour = check int:fromString(time[0]);
   int minute = check int:fromString(time[1]);
   time:Seconds second = check decimal:fromString(time[2]);
 
   string zoneString = splittedValues[5].trim();
   int sign = zoneString.substring(0, 1) == "-" ? -1 : 1;
   time:ZoneOffset utcOffset = {
       hours: sign * check int:fromString(zoneString.substring(1, 3)),
       minutes: sign * check int:fromString(zoneString.substring(3, 5))
   };
   return {year, month, day, hour, minute, second, utcOffset};
}
 
# Converts time:Civil time to string Mon, 15 Aug 05 15:52:01 +0000
#
# + time - time:Civil time record.
# + return - Converted RFC 1036 C string.
function civilToRfc1036(time:Civil time) returns string|error {
   string year = time["year"].toString();
   string month = indexToShortname(time["month"]);
   string date = (time["day"] < 10 ? string `0${time["day"]}` : time["day"].toString());
   string hour = (time["hour"] < 10 ? string `0${time["hour"]}` : time["hour"].toString());
   string minute = (time["minute"] < 10 ? string `0${time["minute"]}` : time["minute"].toString());
   decimal? seconds = time["second"];
   string second = (seconds is () ? "00" : (seconds < 10.0d ? string `0${seconds}` : seconds.toString()));
   time:DayOfWeek day = time:dayOfWeek({year: time["year"], month: time["month"], day: time["day"]});
   string? dayString = intToDay(day);
 
   var hours = time.utcOffset["hours"];
   var minutes = time.utcOffset["minutes"];
   string timeZone;
   if (hours !is () && minutes !is ()) {
       if (hours == 0 && minutes == 0) {
           timeZone = "+0000";
       } else {
           timeZone = (hours < 0 ? "-" : "+") + (hours.abs() < 10 ? string `0${hours}` : hours.abs().toString()) +
           (minutes.abs() < 10 ? string `0${minutes}` : 'int:abs(minutes).toString());
       }
   } else {
       timeZone = "+0000";
   }
   if dayString is () {
       return error("Date is not valid!");
   } else {
       return string `${dayString.substring(0, 3)}, ${date} ${month} ${year.substring(2, 4)} ${hour}:${minute}:${second} ${timeZone}`;
   }
}

RFC 1123

This standard was introduced in Requirements for Internet Hosts -- Application and Support, which defines and discusses the requirements for Internet host software.

Accepted formats.

Mon, 15 Aug 2005 15:52:01 +0000


​​function shortnameToIndex(string shortname) returns int {
   match shortname.toLowerAscii() {
       "jan" => { return 1; }
       "feb" => { return 2; }
       "mar" => { return 3; }
       "apr" => { return 4; }
       "may" => { return 5; }
       "jun" => { return 6; }
       "jul" => { return 7; }
       "aug" => { return 8; }
       "sep" => { return 9; }
       "oct" => { return 10; }
       "nov" => { return 11; }
       "dec" => { return 12; }
       _ => { return 0; }
   }
}

# Converts "Mon, 15 Aug 2005 15:52:01 +0000" time string to time:Civil
#
# + sValue - RFC 1123 string time value.
# + return - Converted time:Civil record.
function civilFromRfc1123(string sValue) returns time:Civil|error {
   string[] splittedValues = regex:split(sValue.trim(), " ");
   int year = check int:fromString(splittedValues[3]);
   int month = shortnameToIndex(splittedValues[2]);
   int day = check int:fromString(splittedValues[1]);
 
   string[] time = regex:split(splittedValues[4], ":");
   int hour = check int:fromString(time[0]);
   int minute = check int:fromString(time[1]);
   time:Seconds second = check decimal:fromString(time[2]);
 
   string zoneString = splittedValues[5].trim();
   int sign = zoneString.substring(0, 1) == "-" ? -1 : 1;
   time:ZoneOffset utcOffset = {
       hours: sign * check int:fromString(zoneString.substring(1, 3)),
       minutes: sign * check int:fromString(zoneString.substring(3, 5))
   };
   time:Civil civil = {year, month, day, hour, minute, second, utcOffset};
   return civil;
}
 
# Converts time:Civil time to string Mon, 15 Aug 2005 15:52:01 +0000
#
# + time - time:Civil time record.
# + return - Converted RFC 1123 C string.
function civilToRfc1123(time:Civil time) returns string|error {
   string year = time["year"].toString();
   string month = indexToShortname(time["month"]);
   string date = (time["day"] < 10 ? string `0${time["day"]}` : time["day"].toString());
   string hour = (time["hour"] < 10 ? string `0${time["hour"]}` : time["hour"].toString());
   string minute = (time["minute"] < 10 ? string `0${time["minute"]}` : time["minute"].toString());
   decimal? seconds = time["second"];
   string second = (seconds is () ? "00" : (seconds < 10.0d ? string `0${seconds}` : seconds.toString()));
   time:DayOfWeek day = time:dayOfWeek({year: time["year"], month: time["month"], day: time["day"]});
   string? dayString = intToDay(day);
 
   var hours = time.utcOffset["hours"];
   var minutes = time.utcOffset["minutes"];
   string timeZone;
   if (hours !is () && minutes !is ()) {
       if (hours == 0 && minutes == 0) {
           timeZone = "+0000";
       } else {
           timeZone = (hours < 0 ? "-" : "+") + (hours.abs() < 10 ? string `0${hours}` : hours.abs().toString()) +
           (minutes.abs() < 10 ? string `0${minutes}` : 'int:abs(minutes).toString());
       }
   } else {
       timeZone = "+0000";
   }
   if dayString is () {
       return error("Date is not valid!");
   } else {
       return string `${dayString.substring(0, 3)}, ${date} ${month} ${year} ${hour}:${minute}:${second} ${timeZone}`;
   }
}
3
  • in RFC 2822 ``` match shortname.toLowerAscii() { "jan" => { return 1; } ``` is a more useful match check. I also get this error when I copy over your code: ``` missing error keyword(BCE0291) unknown type 'shortnameToIndex'(BCE2069) ```
    – A.J.
    Sep 12, 2022 at 19:13
  • 1
    Hi @A.J. Thank you for offering your valuable suggestions. The shortnameToIndex() method was updated appropriately and the same method was included in every code block it is being used which was previously omitted to reduce the code duplication.
    – sahanhe
    Sep 15, 2022 at 20:25
  • Awesome! this is a great article
    – A.J.
    Sep 16, 2022 at 14:16