Location: A review of cardiac cellular electrophysiology models @ f954e5918331 / dojo-presentation / js / dojo / dojo / date.js

Author:
David Nickerson <david.nickerson@gmail.com>
Date:
2021-09-16 00:41:19+12:00
Desc:
Updating Noble 1962 model: * Exposing the membrane potential to the top-level model; * adding SED-ML for the paced and pacemaker variants of the model. Using OpenCOR Snapshot release 2021-09-14.
Permanent Source URI:
https://models.fieldml.org/workspace/a1/rawfile/f954e59183314cd37f86c8832dc81317d01c8ec5/dojo-presentation/js/dojo/dojo/date.js

dojo.provide("dojo.date");

/*=====
dojo.date = {
	// summary: Date manipulation utilities
}
=====*/

dojo.date.getDaysInMonth = function(/*Date*/dateObject){
	//	summary:
	//		Returns the number of days in the month used by dateObject
	var month = dateObject.getMonth();
	var days = [31, 28, 31, 30, 31, 30, 31, 31, 30, 31, 30, 31];
	if(month == 1 && dojo.date.isLeapYear(dateObject)){ return 29; } // Number
	return days[month]; // Number
}

dojo.date.isLeapYear = function(/*Date*/dateObject){
	//	summary:
	//		Determines if the year of the dateObject is a leap year
	//	description:
	//		Leap years are years with an additional day YYYY-02-29, where the
	//		year number is a multiple of four with the following exception: If
	//		a year is a multiple of 100, then it is only a leap year if it is
	//		also a multiple of 400. For example, 1900 was not a leap year, but
	//		2000 is one.

	var year = dateObject.getFullYear();
	return !(year%400) || (!(year%4) && !!(year%100)); // Boolean
}

// FIXME: This is not localized
dojo.date.getTimezoneName = function(/*Date*/dateObject){
	//	summary:
	//		Get the user's time zone as provided by the browser
	// dateObject:
	//		Needed because the timezone may vary with time (daylight savings)
	//	description:
	//		Try to get time zone info from toString or toLocaleString method of
	//		the Date object -- UTC offset is not a time zone.  See
	//		http://www.twinsun.com/tz/tz-link.htm Note: results may be
	//		inconsistent across browsers.

	var str = dateObject.toString(); // Start looking in toString
	var tz = ''; // The result -- return empty string if nothing found
	var match;

	// First look for something in parentheses -- fast lookup, no regex
	var pos = str.indexOf('(');
	if(pos > -1){
		tz = str.substring(++pos, str.indexOf(')'));
	}else{
		// If at first you don't succeed ...
		// If IE knows about the TZ, it appears before the year
		// Capital letters or slash before a 4-digit year 
		// at the end of string
		var pat = /([A-Z\/]+) \d{4}$/;
		if((match = str.match(pat))){
			tz = match[1];
		}else{
		// Some browsers (e.g. Safari) glue the TZ on the end
		// of toLocaleString instead of putting it in toString
			str = dateObject.toLocaleString();
			// Capital letters or slash -- end of string, 
			// after space
			pat = / ([A-Z\/]+)$/;
			if((match = str.match(pat))){
				tz = match[1];
			}
		}
	}

	// Make sure it doesn't somehow end up return AM or PM
	return (tz == 'AM' || tz == 'PM') ? '' : tz; // String
}

// Utility methods to do arithmetic calculations with Dates

dojo.date.compare = function(/*Date*/date1, /*Date?*/date2, /*String?*/portion){
	//	summary:
	//		Compare two date objects by date, time, or both.
	//	description:
	//  	Returns 0 if equal, positive if a > b, else negative.
	//	date1:
	//		Date object
	//	date2:
	//		Date object.  If not specified, the current Date is used.
	//	portion:
	//		A string indicating the "date" or "time" portion of a Date object.
	//		Compares both "date" and "time" by default.  One of the following:
	//		"date", "time", "datetime"

	// Extra step required in copy for IE - see #3112
	date1 = new Date(Number(date1));
	date2 = new Date(Number(date2 || new Date()));

	if(portion !== "undefined"){
		if(portion == "date"){
			// Ignore times and compare dates.
			date1.setHours(0, 0, 0, 0);
			date2.setHours(0, 0, 0, 0);
		}else if(portion == "time"){
			// Ignore dates and compare times.
			date1.setFullYear(0, 0, 0);
			date2.setFullYear(0, 0, 0);
		}
	}
	
	if(date1 > date2){ return 1; } // int
	if(date1 < date2){ return -1; } // int
	return 0; // int
};

dojo.date.add = function(/*Date*/date, /*String*/interval, /*int*/amount){
	//	summary:
	//		Add to a Date in intervals of different size, from milliseconds to years
	//	date: Date
	//		Date object to start with
	//	interval:
	//		A string representing the interval.  One of the following:
	//			"year", "month", "day", "hour", "minute", "second",
	//			"millisecond", "quarter", "week", "weekday"
	//	amount:
	//		How much to add to the date.

	var sum = new Date(Number(date)); // convert to Number before copying to accomodate IE (#3112)
	var fixOvershoot = false;
	var property = "Date";

	switch(interval){
		case "day":
			break;
		case "weekday":
			//i18n FIXME: assumes Saturday/Sunday weekend, but this is not always true.  see dojo.cldr.supplemental

			// Divide the increment time span into weekspans plus leftover days
			// e.g., 8 days is one 5-day weekspan / and two leftover days
			// Can't have zero leftover days, so numbers divisible by 5 get
			// a days value of 5, and the remaining days make up the number of weeks
			var days, weeks;
			var mod = amount % 5;
			if(!mod){
				days = (amount > 0) ? 5 : -5;
				weeks = (amount > 0) ? ((amount-5)/5) : ((amount+5)/5);
			}else{
				days = mod;
				weeks = parseInt(amount/5);
			}
			// Get weekday value for orig date param
			var strt = date.getDay();
			// Orig date is Sat / positive incrementer
			// Jump over Sun
			var adj = 0;
			if(strt == 6 && amount > 0){
				adj = 1;
			}else if(strt == 0 && amount < 0){
			// Orig date is Sun / negative incrementer
			// Jump back over Sat
				adj = -1;
			}
			// Get weekday val for the new date
			var trgt = strt + days;
			// New date is on Sat or Sun
			if(trgt == 0 || trgt == 6){
				adj = (amount > 0) ? 2 : -2;
			}
			// Increment by number of weeks plus leftover days plus
			// weekend adjustments
			amount = (7 * weeks) + days + adj;
			break;
		case "year":
			property = "FullYear";
			// Keep increment/decrement from 2/29 out of March
			fixOvershoot = true;
			break;
		case "week":
			amount *= 7;
			break;
		case "quarter":
			// Naive quarter is just three months
			amount *= 3;
			// fallthrough...
		case "month":
			// Reset to last day of month if you overshoot
			fixOvershoot = true;
			property = "Month";
			break;
		case "hour":
		case "minute":
		case "second":
		case "millisecond":
			property = "UTC"+interval.charAt(0).toUpperCase() + interval.substring(1) + "s";
	}

	if(property){
		sum["set"+property](sum["get"+property]()+amount);
	}

	if(fixOvershoot && (sum.getDate() < date.getDate())){
		sum.setDate(0);
	}

	return sum; // Date
};

dojo.date.difference = function(/*Date*/date1, /*Date?*/date2, /*String?*/interval){
	//	summary:
	//		Get the difference in a specific unit of time (e.g., number of
	//		months, weeks, days, etc.) between two dates, rounded to the
	//		nearest integer.
	//	date1:
	//		Date object
	//	date2:
	//		Date object.  If not specified, the current Date is used.
	//	interval:
	//		A string representing the interval.  One of the following:
	//			"year", "month", "day", "hour", "minute", "second",
	//			"millisecond", "quarter", "week", "weekday"
	//		Defaults to "day".

	date2 = date2 || new Date();
	interval = interval || "day";
	var yearDiff = date2.getFullYear() - date1.getFullYear();
	var delta = 1; // Integer return value

	switch(interval){
		case "quarter":
			var m1 = date1.getMonth();
			var m2 = date2.getMonth();
			// Figure out which quarter the months are in
			var q1 = Math.floor(m1/3) + 1;
			var q2 = Math.floor(m2/3) + 1;
			// Add quarters for any year difference between the dates
			q2 += (yearDiff * 4);
			delta = q2 - q1;
			break;
		case "weekday":
			var days = Math.round(dojo.date.difference(date1, date2, "day"));
			var weeks = parseInt(dojo.date.difference(date1, date2, "week"));
			var mod = days % 7;

			// Even number of weeks
			if(mod == 0){
				days = weeks*5;
			}else{
				// Weeks plus spare change (< 7 days)
				var adj = 0;
				var aDay = date1.getDay();
				var bDay = date2.getDay();

				weeks = parseInt(days/7);
				mod = days % 7;
				// Mark the date advanced by the number of
				// round weeks (may be zero)
				var dtMark = new Date(date1);
				dtMark.setDate(dtMark.getDate()+(weeks*7));
				var dayMark = dtMark.getDay();

				// Spare change days -- 6 or less
				if(days > 0){
					switch(true){
						// Range starts on Sat
						case aDay == 6:
							adj = -1;
							break;
						// Range starts on Sun
						case aDay == 0:
							adj = 0;
							break;
						// Range ends on Sat
						case bDay == 6:
							adj = -1;
							break;
						// Range ends on Sun
						case bDay == 0:
							adj = -2;
							break;
						// Range contains weekend
						case (dayMark + mod) > 5:
							adj = -2;
					}
				}else if(days < 0){
					switch(true){
						// Range starts on Sat
						case aDay == 6:
							adj = 0;
							break;
						// Range starts on Sun
						case aDay == 0:
							adj = 1;
							break;
						// Range ends on Sat
						case bDay == 6:
							adj = 2;
							break;
						// Range ends on Sun
						case bDay == 0:
							adj = 1;
							break;
						// Range contains weekend
						case (dayMark + mod) < 0:
							adj = 2;
					}
				}
				days += adj;
				days -= (weeks*2);
			}
			delta = days;
			break;
		case "year":
			delta = yearDiff;
			break;
		case "month":
			delta = (date2.getMonth() - date1.getMonth()) + (yearDiff * 12);
			break;
		case "week":
			// Truncate instead of rounding
			// Don't use Math.floor -- value may be negative
			delta = parseInt(dojo.date.difference(date1, date2, "day")/7);
			break;
		case "day":
			delta /= 24;
			// fallthrough
		case "hour":
			delta /= 60;
			// fallthrough
		case "minute":
			delta /= 60;
			// fallthrough
		case "second":
			delta /= 1000;
			// fallthrough
		case "millisecond":
			delta *= date2.getTime() - date1.getTime();
	}

	// Round for fractional values and DST leaps
	return Math.round(delta); // Number (integer)
};