--- /dev/null
+# Created by Octave 3.6.1, Sat Apr 28 20:53:21 2012 UTC <root@brouzouf>
+# name: cache
+# type: cell
+# rows: 3
+# columns: 57
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 7
+bolling
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 716
+ -- Function File: bolling (ASSET, SAMPLES)
+ -- Function File: bolling (ASSET, SAMPLES, ALPHA)
+ -- Function File: bolling (ASSET, SAMPLES, ALPHA, WIDTH)
+ -- Function File: [MOVAVG, UPPERBAND, LOWERBAND] = bolling (ASSET,
+ SAMPLES, ...)
+ If no output is requested, plot the bollinger bands of the ASSET.
+ If output is requested, return the values for the bollinger bands.
+ If given, ALPHA is the weighting power of the moving average; 0
+ (default) is the simple moving average, see `movavg' for the full
+ definition. WIDTH is the number of standard deviations to plot
+ above and below the moving average (default: 2).
+
+ See also: movavg, candle, dateaxis, highlow, pointfig
+
+
+
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 65
+If no output is requested, plot the bollinger bands of the ASSET.
+
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 7
+busdate
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 833
+ -- Function File: b = busdate (refdate)
+ -- Function File: b = busdate (refdate, direction)
+ -- Function File: b = busdate (refdate, direction, holiday)
+ -- Function File: b = busdate (refdate, direction, holiday, weekend)
+ Return the datenum of the next or previous business day from
+ REFDATE. DIRECTION indicates the next day (default) if 1 and the
+ previous day if -1. HOLIDAY is a vector of datenums that defines
+ the holidays observed (the holidays function is used if not
+ given). WEEKEND defines the days of the week that should be
+ considered weekends; [1 0 0 0 0 0 1] (default) indicates that
+ Sunday and Saturday are holidays.
+
+ If any of the optional inputs (DIRECTION, HOLIDAY, WEEKEND) are
+ empty, then the default is used.
+
+ See also: holidays, lbusdate, isbusday, fbusdate
+
+
+
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 69
+Return the datenum of the next or previous business day from REFDATE.
+
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 7
+busdays
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 870
+ -- Function File: BDATES = busdays (SDATE, EDATE)
+ -- Function File: BDATES = busdays (SDATE, EDATE, BDMODE)
+ -- Function File: BDATES = busdays (SDATE, EDATE, BDMODE, HOLVEC)
+ Generate a list of business dates at the end of the periods defined
+ between (including) SDATE and EDATE.
+
+ SDATE is the starting date, EDATE is the ending date, both are in
+ serial date format (see datenum). BDMODE is the business day
+ frequency ("daily", "weekly", "monthly", "quarterly",
+ "semiannual", or "annual"); these can be abbreviated by the first
+ letter and they may also use an integer corresponding to the order
+ in the above list (i.e. "daily" = 1). HOLVEC is an optional list
+ of holidays. If the holidays are not given, then the holidays
+ function is used.
+
+ See also: holidays, busdate, lbusdate, isbusday, fbusdate, datenum
+
+
+
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 80
+Generate a list of business dates at the end of the periods defined
+between (inc
+
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 6
+cfconv
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 305
+ -- Function File: CFCONV = cfconv (CF, YIELD)
+ Calculate convexity CFCONV from given fixed-paid cash flow CF and
+ period yield YIELD.
+
+ Reference:
+
+ [1] http://thismatter.com/money/bonds/duration-convexity.htm
+
+ [2] http://en.wikipedia.org/wiki/Bond_convexity
+
+ See also: cfdur
+
+
+
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 80
+Calculate convexity CFCONV from given fixed-paid cash flow CF and
+period yield Y
+
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 5
+cfdur
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 329
+ -- Function File: [DUR, MOD_DUR] = cfdur (CF, YIELD)
+ Calculate duration DUR and modified duration MOD_DUR, from given
+ fixed-paid cash flow CF and period yield YIELD.
+
+ Reference: http://en.wikipedia.org/wiki/Bond_duration Using
+ periodic compounding instead of continuous compounding.
+
+ See also: cfconv
+
+
+
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 80
+Calculate duration DUR and modified duration MOD_DUR, from given
+fixed-paid cash
+
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 8
+corr2cov
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 279
+ -- Function File: COV = corr2cov (SIGMA, CORR)
+ Convert standard deviation SIGMA and correlation coefficients CORR
+ to covariance COV.
+
+ Note that the rate R is specified as a fraction (i.e., 0.05, not 5
+ percent).
+
+ See also: corrcoef, cov, cov2corr, std
+
+
+
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 80
+Convert standard deviation SIGMA and correlation coefficients CORR to
+covariance
+
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 8
+cov2corr
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 204
+ -- Function File: [SIGMA, CORR] = cov2corr (COV)
+ Convert covariance COV from input to standard deviation SIGMA and
+ correlation coefficients CORR.
+
+ See also: corr2cov, corrcoef, cov, std
+
+
+
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 80
+Convert covariance COV from input to standard deviation SIGMA and
+correlation co
+
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 8
+dateaxis
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 669
+ -- Function File: dateaxis ()
+ -- Function File: dateaxis (AX)
+ -- Function File: dateaxis (AX, DATEFORM)
+ -- Function File: dateaxis (AX, DATEFORM, STARTDATE)
+ -- Function File: dateaxis (H, ...)
+ Convert the current axis tick labels (or the axis handle H) to a
+ date format. The axis given by AX ("x", "y", or "z") will be
+ changed; the default is "x". The date format, DATEFORM, used will
+ be either auto-determined or an integer corresponding to the date
+ formats in datestr. If STARTDATE is given, then the first tick
+ value on the given axis is assumed to be that date.
+
+ See also: bolling, candle, highlow, movavg, pointfig
+
+
+
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 77
+Convert the current axis tick labels (or the axis handle H) to a date
+format.
+
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 8
+datefind
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 203
+ -- Function File: indices = datefind (subset, superset, tol)
+ Find any instances of the `subset' in the `superset' with the
+ `tol'erance. `tol' is 0 by default.
+
+ See also: date, datenum
+
+
+
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 74
+Find any instances of the `subset' in the `superset' with the
+`tol'erance.
+
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 9
+datesplit
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 3210
+ -- Function File: Y = datesplit(date, P)
+ -- Function File: [Y,M,D,h,m,s] = datesplit(date, P)
+ Split a date string into the Year, Month, Day, hour, minute, and
+ second. This routine tries to be as forgiving as possible to the
+ date input while requiring that the date is not ambiguous.
+
+ Anywhere possible where it would not be ambiguous, efforts were
+ made to make times possible with seconds and AM/PM as optional.
+ Also, along the same lines, where possible, commas were allowed
+ with spaces, and the year/month/day separators were allowed as
+ period (.), slash (/), and dash (-). Not all format possibilities
+ are shown in the following table, but a date like `dd-mmm-yyyy
+ HH:MM:SS' is parsed just as well as `d/mmm.yyyy, ,H:MM, AM'.
+
+ Supported `date' formats include (the same as datestr):
+ *Code* *Format* *Example*
+ 0 dd-mmm-yyyy HH:MM:SS 07-Sep-2000 15:38:09
+ 1 dd-mmm-yyyy 07-Sep-2000
+ 2 mm/dd/yy 09/07/00
+ 3 mmm Sep
+ 6 mm/dd 09/13
+ 10 yyyy 2000
+ 12 mmmyy Sep00
+ 13 HH:MM:SS 15:38:09
+ 14 HH:MM:SS PM 03:38:09 PM
+ 15 HH:MM 15:38
+ 16 HH:MM PM 03:38 PM
+ 17 QQ-YY Q3-00
+ 19 dd/mm 13/03
+ 20 dd/mm/yy 13/03/95
+ 21 mmm.dd.yyyy HH:MM:SS Mar.03.1962 13:53:06
+ 22 mmm.dd.yyyy Mar.03.1962
+ 23 mm/dd/yyyy 03/13/1962
+ 24 dd/mm/yyyy 12/03/1962
+ 25 yy/mm/dd 95/03/13
+ 26 yyyy/mm/dd 1995/03/13
+ 27 QQ-YYYY Q4-2132
+ 28 mmmyyyy Mar2047
+ 29 yyyymmdd 20470313
+ 30 yyyymmddTHHMMSS 20470313T132603
+ 31 yyyy-mm-dd HH:MM:SS 1047-03-13 13:26:03
+
+ The parameter `P' is needed to convert date strings with 2 digit
+ years into dates with 4 digit years. 2 digit years are assumed to
+ be between `P' and `P+99'. If `P' is not given then the current
+ year - 50 is used, so that dates are centered on the present. For
+ birthdates, you would want `P' to be current year - 99. For
+ appointments, you would want `P' to be current year.
+
+ This function makes no strong attempt to verify the accuracy of the
+ numbers that it returns in that it doesn't (currently) check to see
+ that you're not trying to use the date Feb 30. When applicable, it
+ tries to make your input work, though. It will try to determine if
+ you're using the date "03/13/95" that the date is "March 13, 1995",
+ but if there is doubt, datesplit will return an error instead of
+ trying to guess the wrong value.
+
+ See also: date, clock, now, datestr, datenum, calendar, weekday
+
+
+
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 72
+Split a date string into the Year, Month, Day, hour, minute, and
+second.
+
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 3
+day
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 169
+ -- Function File: dom = day (Date)
+ Returns the day of the month from a serial date number or a date
+ string.
+
+ See also: date, datevec, now, month, year
+
+
+
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 72
+Returns the day of the month from a serial date number or a date string.
+
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 7
+daysact
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 578
+ -- Function File: daysact (D1)
+ -- Function File: daysact (D1, D2)
+ Calculates the number of days between two dates. If the second
+ date is not given, calculate the number of days since 1-Jan-0000.
+ The variables D1 and D2 can either be strings or an N-row string
+ matrix. If both D1 and D2 are string matrices, then the number of
+ rows must match. An example of the use of `daysact' is
+
+ daysact ("01-Jan-2007", ["10-Jan-2007"; "23-Feb-2007"; "23-Jul-2007"])
+ => 9
+ 53
+ 203
+
+ See also: datenum
+
+
+
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 48
+Calculates the number of days between two dates.
+
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 6
+easter
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 211
+ -- Function File: [m, d] = easter (y)
+ -- Function File: datenum = easter (y)
+ Return the month (M) and day (D) of Easter in the Gregorial
+ calendar on a given year or years.
+
+ See also: holidays
+
+
+
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 80
+Return the month (M) and day (D) of Easter in the Gregorial calendar on
+a given
+
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 5
+effrr
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 191
+ -- Function File: RETURN = effrr (RATE, NUMPERIODS)
+ Compute the effective rate of return based on a nominal RATE over
+ a number of periods, NUMPERIODS.
+
+ See also: irr, nomrr
+
+
+
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 80
+Compute the effective rate of return based on a nominal RATE over a
+number of pe
+
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 7
+eomdate
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 169
+ -- Function File: E = eomdate (Y, M)
+ Return the last day of the month M for the year Y in datenum
+ format.
+
+ See also: datenum, datevec, weekday, eomday
+
+
+
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 68
+Return the last day of the month M for the year Y in datenum format.
+
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 8
+fbusdate
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 679
+ -- Function File: b = fbusdate (year, month)
+ -- Function File: b = fbusdate (year, month, holiday)
+ -- Function File: b = fbusdate (year, month, holiday, weekend)
+ Return the datenum of the first business day of the YEAR and
+ MONTH. HOLIDAY is a vector of datenums that defines the holidays
+ observed (the holidays function is used if not given). WEEKEND
+ defines the days of the week that should be considered weekends;
+ [1 0 0 0 0 0 1] (default) indicates that Sunday and Saturday are
+ holidays.
+
+ If any of the optional inputs (HOLIDAY, WEEKEND) are empty, then
+ the default is used.
+
+ See also: holidays, lbusdate, isbusday, busdate
+
+
+
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 67
+Return the datenum of the first business day of the YEAR and MONTH.
+
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 5
+fetch
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 1237
+ -- DATA =: fetch (CONN, SYMBOL)
+ -- DATA =: fetch (..., FIELDS)
+ -- DATA =: fetch (..., DATE)
+ -- DATA =: fetch (..., FROMDATE, TODATE)
+ -- DATA =: fetch (..., PERIOD)
+ -- [DATA, FIELDS] =: fetch (...)
+ Download stock data from a connection.
+
+ FIELDS are the data fields to download and must come from the set
+ * "Symbol"
+
+ * "Last"
+
+ * "Date"
+
+ * "Time"
+
+ * "Change"
+
+ * "Open"
+
+ * "High",
+
+ * "Low"
+
+ * "Volume"
+
+ As an output, FIELDS may be different than your request. This is
+ because there is mapping of field names from the data source to
+ the output, and what is returned is the source mapping to allow
+ validation.
+
+ DATE is the date string or datenum for the requested data. If you
+ enter today's date, you will get yesterday's data. FROMDATE and
+ TODATE allow you to specify a date range for the data.
+
+ PERIOD (default: "d") allows you to select the period for the data
+ which can be any of the below as long as they are supported by the
+ associated backend.
+ * 'd': daily
+
+ * 'w': weekly
+
+ * 'm': monthly (Yahoo only)
+
+ * 'v': dividends (Yahoo only)
+
+ See also: yahoo, google
+
+
+
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 38
+Download stock data from a connection.
+
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 2
+fv
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 551
+ -- Function File: fv (R, N, P, L, METHOD)
+ Return the future value at the end of period N of an investment
+ which consists of N payments of P in each period, assuming an
+ interest rate R.
+
+ The optional argument L may be used to specify an additional
+ lump-sum payment.
+
+ The optional argument METHOD may be used to specify whether the
+ payments are made at the end (`"e"', default) or at the beginning
+ (`"b"') of each period.
+
+ Note that the rate R is specified as a fraction (i.e., 0.05, not 5
+ percent).
+
+
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 80
+Return the future value at the end of period N of an investment which
+consists o
+
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 3
+fvl
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 254
+ -- Function File: fvl (R, N, L)
+ Return the future value at the end of N periods of an initial lump
+ sum investment L, given a per-period interest rate R.
+
+ Note that the rate R is specified as a fraction (i.e., 0.05, not 5
+ percent).
+
+
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 80
+Return the future value at the end of N periods of an initial lump sum
+investmen
+
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 6
+google
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 414
+ -- Function File: CONN = google ()
+ -- Function File: CONN = google (URL, IPADDRESS, PORT)
+ Prepare a Google connection for the fetch command to get Google
+ historical quote data.
+
+ If given, the URL must be "http://finance.google.com". The
+ IPADDRESS and PORT is the proxy ipaddress and port. These
+ parameters are currently ignored (with a warning if given).
+
+ See also: fetch, yahoo
+
+
+
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 80
+Prepare a Google connection for the fetch command to get Google
+historical quote
+
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 5
+hhigh
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 287
+ -- Function File: HHV = hhigh (DATA)
+ -- Function File: HHV = hhigh (DATA, NPERIODS)
+ -- Function File: HHV = hhigh (DATA, NPERIODS, DIM)
+ Compute the highest high value of DATA for the past NPERIODS
+ (default: 14) across the dimension, DIM (default: 1).
+
+ See also: llow
+
+
+
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 80
+Compute the highest high value of DATA for the past NPERIODS (default:
+14) acros
+
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 7
+highlow
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 471
+ -- Function File: H = highlow (HIGH, LOW, CLOSE)
+ -- Function File: H = highlow (HIGH, LOW, CLOSE, OPEN)
+ -- Function File: H = highlow (HIGH, LOW, CLOSE, OPEN, COLOR)
+ Plot the HIGH, LOW, and CLOSE of a security. The CLOSE is plotted
+ as a tick to the right, and if OPEN is given and non-empty, it is
+ plotted as a tick to the left. The color can override the default
+ color for the plot.
+
+ See also: bolling, candle, dateaxis, movavg, pointfig
+
+
+
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 44
+Plot the HIGH, LOW, and CLOSE of a security.
+
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 8
+holidays
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 586
+ -- Function File: h = holidays (startdate, enddate)
+ Return a vector of datenums that were holidays between STARTDATE
+ and ENDDATE, inclusive. These holidays are trading holidays
+ observed by the NYSE according to its rule 51.10. It does not take
+ into account the exceptions for "unusual business conditions" or
+ for additional days that have been called as holidays for one-time
+ purposes.
+
+ The complete list can be found at
+ http://www.chronos-st.org/NYSE_Observed_Holidays-1885-Present.html
+
+ See also: busdate, lbusdate, isbusday, fbusdate
+
+
+
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 80
+Return a vector of datenums that were holidays between STARTDATE and
+ENDDATE, in
+
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 4
+hour
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 154
+ -- Function File: h = hour (Date)
+ Returns the hour from a serial date number or a date string.
+
+ See also: date, datevec, now, minute, second
+
+
+
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 60
+Returns the hour from a serial date number or a date string.
+
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 3
+irr
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 266
+ -- Function File: irr (P, I)
+ Return the internal rate of return of a series of payments P from
+ an initial investment I (i.e., the solution of `npv (r, p) = i'.
+ If the second argument is omitted, a value of 0 is used.
+
+ See also: npv, pv, rate
+
+
+
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 80
+Return the internal rate of return of a series of payments P from an
+initial inv
+
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 8
+isbusday
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 551
+ -- Function File: r = isbusday (refdate)
+ -- Function File: r = isbusday (refdate, holiday)
+ -- Function File: r = isbusday (refdate, holiday, weekend)
+ Return true if the REFDATE is a business date REFDATE. HOLIDAY is
+ a vector of datenums that defines the holidays observed (the
+ holidays function is used if not given). WEEKEND defines the days
+ of the week that should be considered weekends; [1 0 0 0 0 0 1]
+ (default) indicates that Sunday and Saturday are weekends.
+
+ See also: holidays, lbusdate, busdate, fbusdate
+
+
+
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 54
+Return true if the REFDATE is a business date REFDATE.
+
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 8
+lbusdate
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 672
+ -- Function File: b = lbusdate (year, month)
+ -- Function File: b = lbusdate (year, month, holiday)
+ -- Function File: b = lbusdate (year, month, holiday, weekend)
+ Return the datenum of the last business day of the YEAR and MONTH.
+ HOLIDAY is a vector of datenums that defines the holidays observed
+ (the holidays function is used if not given). WEEKEND defines the
+ days of the week that should be considered weekends; [1 0 0 0 0 0
+ 1] (default) indicates that Sunday and Saturday are holidays.
+
+ If any of the optional inputs (HOLIDAY, WEEKEND) are empty, then
+ the default is used.
+
+ See also: holidays, fbusdate, isbusday, busdate
+
+
+
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 66
+Return the datenum of the last business day of the YEAR and MONTH.
+
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 4
+llow
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 283
+ -- Function File: LLV = llow (DATA)
+ -- Function File: LLV = llow (DATA, NPERIODS)
+ -- Function File: LLV = llow (DATA, NPERIODS, DIM)
+ Compute the lowest low value of DATA for the past NPERIODS
+ (default: 14) across the dimension, DIM (default: 1).
+
+ See also: hhigh
+
+
+
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 80
+Compute the lowest low value of DATA for the past NPERIODS (default:
+14) across
+
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 9
+lweekdate
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 277
+ -- Function File: last = lweekdate (weekday, year, month, nextday)
+ Returns the last occurrence of WEEKDAY from the MONTH and YEAR.
+ If the optional NEXTDAY argument is given, then the week must also
+ contain NEXTDAY.
+
+ See also: eomdate, nweekdate, weekday
+
+
+
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 63
+Returns the last occurrence of WEEKDAY from the MONTH and YEAR.
+
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 7
+m2xdate
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 966
+ -- Function File: exceldatenums = m2xdate (datenums)
+ -- Function File: exceldatenums = m2xdate (datenums, convention)
+ -- Function File: exceldatenums = m2xdate (datenums, convention,
+ "ExcelBug")
+ Convert DATENUMS from the internal date format to the format used
+ by Microsoft Excel. If set to 0 (default, Excel for Windows),
+ CONVENTION specifies to use the Excel 1900 convention where Jan 1,
+ 1900 corresponds to Excel serial date number 1. If set to 1
+ (Excel for Mac), CONVENTION specifies to use the Excel 1904
+ convention where Jan 1, 1904 corresponds to Excel serial date
+ number 0.
+
+ Note that this does not take into account the Excel bug where 1900
+ is considered to be a leap year unless you give the "ExcelBug"
+ option.
+
+ Excel does not represent dates prior to 1 January 1900 using this
+ format, so a warning will be issued if any dates preceed this date.
+
+ See also: datenum, x2mdate
+
+
+
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 80
+Convert DATENUMS from the internal date format to the format used by
+Microsoft E
+
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 6
+minute
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 156
+ -- Function File: m = minute (Date)
+ Returns the minute from a serial date number or a date string.
+
+ See also: date, datevec, now, hour, second
+
+
+
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 62
+Returns the minute from a serial date number or a date string.
+
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 4
+mirr
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 338
+ -- Function File: RETURN = mirr (CASHFLOW, FINRATE, REINVESTRATE)
+ Compute the modified internal rate of return. Take periodic
+ CASHFLOWs as a vector and the finance rate, FINRATE, for negative
+ cash flows and a reinvestment rate, REINVESTRATE, for positive
+ cash flows.
+
+ See also: irr, effrr, nomrr, pvvar, xirr
+
+
+
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 45
+Compute the modified internal rate of return.
+
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 5
+month
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 169
+ -- Function File: mon = month (Date)
+ Returns the day of the month from a serial date number or a date
+ string.
+
+ See also: date, datevec, now, day, year
+
+
+
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 72
+Returns the day of the month from a serial date number or a date string.
+
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 6
+months
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 514
+ -- Function File: mos = months (startdate, enddate)
+ -- Function File: mos = months (startdate, enddate, endmonthflag)
+ Return the number of whole months between STARTDATE and ENDDATE.
+ ENDMONTHFLAG defaults to 1.
+
+ If ENDMONTHFLAG is true, then if both the STARTDATE and the
+ ENDDATE are end of month dates and ENDDATE has fewer days in the
+ month than STARTDATE, ENDMONTHFLAG = 1 treats ENDDATE as the end
+ of a month, but ENDMONTHFLAG = 0 does not.
+
+ See also: yeardays, yearfrac
+
+
+
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 64
+Return the number of whole months between STARTDATE and ENDDATE.
+
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 6
+movavg
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 726
+ -- Function File: movavg (ASSET, LEAD, LAG)
+ -- Function File: movavg (ASSET, LEAD, LAG, ALPHA)
+ -- Function File: [SHORT, LONG] = movavg (ASSET, LEAD, LAG, ALPHA)
+ Calculate the LEADing and LAGging moving average of an ASSET. If
+ given, ALPHA is the weighting power of the delay; 0 (default) is
+ the simple moving average, 0.5 would be the square root weighted
+ moving average, 1 would be linear, 2 would be squared, ..., and
+ 'e' is the exponential moving average.
+
+ If no output is requested the data is plotted. The plots are drawn
+ in the following order: asset, lag, lead. If output is requested,
+ no plot is generated.
+
+ See also: bolling, candle, dateaxis, highlow, pointfig
+
+
+
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 61
+Calculate the LEADing and LAGging moving average of an ASSET.
+
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 9
+negvolidx
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 570
+ -- Function File: NVI = negvolidx (CLOSEPRICE, VOL)
+ -- Function File: NVI = negvolidx ([CLOSEPRICE VOL])
+ -- Function File: NVI = negvolidx (CLOSEPRICE, VOL, INITNVI)
+ -- Function File: NVI = negvolidx ([CLOSEPRICE VOL], INITNVI)
+ Compute the negative volume index of a security based on its
+ closing price (CLOSEPRICE) and VOLume. They may be given as
+ separate arguments or as an nx2 matrix. If given, the INITNVI is
+ the starting value of the nvi (default: 100).
+
+ The NVI will always be a column vector.
+
+ See also: onbalvol, posvolidx
+
+
+
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 80
+Compute the negative volume index of a security based on its closing
+price (CLOS
+
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 5
+nomrr
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 191
+ -- Function File: RETURN = nomrr (RATE, NUMPERIODS)
+ Compute the nominal rate of return based on a effective RATE over
+ a number of periods, NUMPERIODS.
+
+ See also: irr, effrr
+
+
+
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 80
+Compute the nominal rate of return based on a effective RATE over a
+number of pe
+
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 4
+nper
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 579
+ -- Function File: nper (R, P, A, L, METHOD)
+ Return the number of regular payments of P necessary to amortize A
+ loan of amount A and interest R.
+
+ The optional argument L may be used to specify an additional
+ lump-sum payment of L made at the end of the amortization time.
+
+ The optional argument METHOD may be used to specify whether
+ payments are made at the end ("E", default) or at the beginning
+ ("B") of each period.
+
+ Note that the rate R is specified as a fraction (i.e., 0.05, not 5
+ percent).
+
+ See also: pv, pmt, rate, npv
+
+
+
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 80
+Return the number of regular payments of P necessary to amortize A loan
+of amoun
+
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 3
+npv
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 577
+ -- Function File: npv (R, P, I)
+ Net present value of a series of payments.
+
+ Returns the net present value of a series of irregular (i.e., not
+ necessarily identical) payments P which occur at the ends of N
+ consecutive periods. R specifies the one-period interest rates and
+ can either be a scalar (constant rates) or a vector of the same
+ length as P.
+
+ The optional argument I may be used to specify an initial
+ investment.
+
+ Note that the rate R is specified as a fraction (i.e., 0.05, not 5
+ percent).
+
+ See also: irr, pv
+
+
+
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 42
+Net present value of a series of payments.
+
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 9
+nweekdate
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 374
+ -- Function File: last = nweekdate (n, weekday, year, month, nextday)
+ Returns the Nth occurrence of WEEKDAY from the MONTH and YEAR. If
+ the optional NEXTDAY argument is given, then the week must also
+ contain NEXTDAY. If N is greater than the number of occurrences
+ of that day in the month, 0 is returned.
+
+ See also: eomdate, lweekdate, weekday
+
+
+
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 62
+Returns the Nth occurrence of WEEKDAY from the MONTH and YEAR.
+
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 8
+onbalvol
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 412
+ -- Function File: OBV = onbalvol (CLOSEPRICE, VOL)
+ -- Function File: OBV = onbalvol ([CLOSEPRICE VOL])
+ Compute the on balance volume of a security based on its closing
+ price (CLOSEPRICE) and VOLume. They may be given as separate
+ arguments or as an nx2 matrix.
+
+ The output will be a column vector, and the first number in the
+ output is always 0.
+
+ See also: negvolidx, posvolidx
+
+
+
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 80
+Compute the on balance volume of a security based on its closing price
+(CLOSEPRI
+
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 3
+pmt
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 451
+ -- Function File: pmt (R, N, A, L, METHOD)
+ Return the amount of periodic payment necessary to amortize a loan
+ of amount a with interest rate R in N periods.
+
+ The optional argument L may be used to specify a terminal lump-sum
+ payment.
+
+ The optional argument METHOD may be used to specify whether
+ payments are made at the end ("E", default) or at the beginning
+ ("B") of each period.
+
+ See also: pv, nper, rate
+
+
+
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 80
+Return the amount of periodic payment necessary to amortize a loan of
+amount a w
+
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 8
+pointfig
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 233
+ -- Function File: pointfig (ASSET)
+ Plot the point figure chart of an ASSET. Upward price movements
+ are plotted as Xs and downward movements are plotted as Os.
+
+ See also: bolling, candle, dateaxis, highlow, movavg
+
+
+
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 40
+Plot the point figure chart of an ASSET.
+
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 9
+posvolidx
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 570
+ -- Function File: PVI = posvolidx (CLOSEPRICE, VOL)
+ -- Function File: PVI = posvolidx ([CLOSEPRICE VOL])
+ -- Function File: PVI = posvolidx (CLOSEPRICE, VOL, INITPVI)
+ -- Function File: PVI = posvolidx ([CLOSEPRICE VOL], INITPVI)
+ Compute the positive volume index of a security based on its
+ closing price (CLOSEPRICE) and VOLume. They may be given as
+ separate arguments or as an nx2 matrix. If given, the INITPVI is
+ the starting value of the pvi (default: 100).
+
+ The PVI will always be a column vector.
+
+ See also: onbalvol, negvolidx
+
+
+
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 80
+Compute the positive volume index of a security based on its closing
+price (CLOS
+
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 2
+pv
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 580
+ -- Function File: pv (R, N, P, L, METHOD)
+ Returns the present value of an investment that will pay off P for
+ N consecutive periods, assuming an interest R.
+
+ The optional argument L may be used to specify an additional
+ lump-sum payment made at the end of N periods.
+
+ The optional argument METHOD may be used to specify whether
+ payments are made at the end (`"e"', default) or at the beginning
+ (`"b"') of each period.
+
+ Note that the rate R is specified as a fraction (i.e., 0.05, not 5
+ percent).
+
+ See also: pmt, nper, rate, npv
+
+
+
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 80
+Returns the present value of an investment that will pay off P for N
+consecutive
+
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 3
+pvl
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 268
+ -- Function File: V = pvl (R, N, P)
+ Return the present value V of an investment that will pay off P in
+ one lump sum at the end of N periods, given the interest rate R.
+
+ Note that the rate R is specified as a fraction (i.e., 0.05, not 5
+ percent).
+
+
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 80
+Return the present value V of an investment that will pay off P in one
+lump sum
+
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 4
+rate
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 616
+ -- Function File: R = rate (N, P, V)
+ -- Function File: R = rate (N, P, V, L)
+ -- Function File: R = rate (N, P, V, L, METHOD)
+ -- Function File: R = rate (N, P, V, METHOD)
+ Return the rate of return R on an investment of present value V
+ which pays P in N consecutive periods.
+
+ The optional argument L may be used to specify an additional
+ lump-sum payment made at the end of N periods.
+
+ The optional string argument METHOD may be used to specify whether
+ payments are made at the end (`"e"', default) or at the beginning
+ (`"b"') of each period.
+
+ See also: pv, pmt, nper, npv
+
+
+
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 80
+Return the rate of return R on an investment of present value V which
+pays P in
+
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 7
+rsindex
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 408
+ -- Function File: RSI = rsindex (CLOSEPRICE)
+ -- Function File: RSI = rsindex (CLOSEPRICE, NPERIODS)
+ Compute the relative strength index (RSI) of an asset from the
+ vector of closing prices (CLOSEPRICE). NPERIODS defines the
+ number of periods that the rsi should be calculated for (default:
+ 14).
+
+ The beginning of the RSI is padded with nans to match the size of
+ CLOSEPRICE.
+
+
+
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 80
+Compute the relative strength index (RSI) of an asset from the vector
+of closing
+
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 6
+second
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 156
+ -- Function File: s = second (Date)
+ Returns the second from a serial date number or a date string.
+
+ See also: date, datevec, now, hour, minute
+
+
+
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 62
+Returns the second from a serial date number or a date string.
+
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 7
+taxedrr
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 196
+ -- Function File: RETURN = taxedrr (PRETAXRETURN, TAXRATE)
+ Compute the taxed rate of RETURN based on a PRETAXRETURN rate and
+ a TAXRATE.
+
+ See also: irr, effrr, nomrr, pvvar, xirr
+
+
+
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 76
+Compute the taxed rate of RETURN based on a PRETAXRETURN rate and a
+TAXRATE.
+
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 14
+thirdwednesday
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 391
+ -- Function File: [begindate, enddate] = thirdwednesday (month, year)
+ Find the third Wednesday of the month specified by the MONTH and
+ YEAR. The BEGINDATE is the third Wednesday of the month, and the
+ ENDDATE is three months after that. Outputs are in the form of
+ datenums.
+
+ The third Wednesday is used for Eurodollar futures.
+
+ See also: nweekdate, datenum
+
+
+
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 70
+Find the third Wednesday of the month specified by the MONTH and YEAR.
+
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 5
+today
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 360
+ -- Function File: datenum = today ()
+ Returns the current local date as the number of days since Jan 1,
+ 0000. By this reckoning, Jan 1, 1970 is day number 719529.
+
+ The returned number corresponds to 00:00:00 today.
+
+ The returned value is also called a "serial date number" (see
+ `datenum').
+
+ See also: clock, date, datenum, now
+
+
+
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 71
+Returns the current local date as the number of days since Jan 1, 0000.
+
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 3
+vol
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 477
+ -- Function File: VOLAT = vol (X, M, N)
+ Return the volatility VOLAT of each column of the input matrix X.
+
+ The number of data sets per period is given by M (e.g. the number
+ of data per year if you want to compute the volatility per year).
+ The optional parameter N gives the number of past periods used for
+ computation, if it is omitted, a value of 1 is used.
+
+ If T is the number of rows of X, `vol' returns the volatility from
+ `n*m' to T.
+
+
+
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 65
+Return the volatility VOLAT of each column of the input matrix X.
+
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 7
+x2mdate
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 967
+ -- Function File: datenums = x2mdate (exceldatenums)
+ -- Function File: datenums = x2mdate (exceldatenums, convention)
+ -- Function File: datenums = x2mdate (exceldatenums, convention,
+ "ExcelBug")
+ Convert DATENUMS from the Microsoft Excel date format to the
+ format used by `datenum'. If set to 0 (default, Excel for
+ Windows), CONVENTION specifies to use the Excel 1900 convention
+ where Jan 1, 1900 corresponds to Excel serial date number 1. If
+ set to 1 (Excel for Mac), CONVENTION specifies to use the Excel
+ 1904 convention where Jan 1, 1904 corresponds to Excel serial date
+ number 0.
+
+ Note that this does not take into account the Excel bug where 1900
+ is considered to be a leap year unless you give the "ExcelBug"
+ option.
+
+ Excel does not represent dates prior to 1 January 1900 using this
+ format, so a warning will be issued if any dates preceed this date.
+
+ See also: datenum, x2mdate
+
+
+
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 80
+Convert DATENUMS from the Microsoft Excel date format to the format
+used by `dat
+
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 5
+yahoo
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 408
+ -- Function File: CONN = yahoo ()
+ -- Function File: CONN = yahoo (URL, IPADDRESS, PORT)
+ Prepare a Yahoo connection for the fetch command to get Yahoo
+ historical quote data.
+
+ If given, the URL must be "http://quote.yahoo.com". The IPADDRESS
+ and PORT is the proxy ipaddress and port. These parameters are
+ currently ignored (with a warning if given).
+
+ See also: fetch, google
+
+
+
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 80
+Prepare a Yahoo connection for the fetch command to get Yahoo
+historical quote d
+
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 4
+year
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 150
+ -- Function File: y = year (Date)
+ Returns the year from a serial date number or a date string.
+
+ See also: date, datevec, now, day, month
+
+
+
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 60
+Returns the year from a serial date number or a date string.
+
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 8
+yeardays
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 596
+ -- Function File: D = yeardays (Y)
+ -- Function File: D = yeardays (Y, B)
+ Return the number of days in the year Y with an optional basis B.
+
+ Valid bases
+ * 0 actual/actual (default)
+
+ * 1 30/360 (SIA)
+
+ * 2 actual/360
+
+ * 3 actual/365
+
+ * 4 30/360 (PSA)
+
+ * 5 30/360 (IDSA)
+
+ * 6 30/360 (European)
+
+ * 7 actual/365 (Japanese)
+
+ * 8 actual/actual (ISMA)
+
+ * 9 actual/360 (ISMA)
+
+ * 10 actual/365 (ISMA)
+
+ * 11 30/360E (ISMA)
+
+ See also: days365, days360, daysact, daysdif
+
+
+
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 65
+Return the number of days in the year Y with an optional basis B.
+
+
+
+
+