Add-in Functions, List of Analysis Functions Part One
The Add-in functions are supplied by the UNO com.sun.star.sheet.addin.Analysis service.
BESSELI
Calculates the modified Bessel function of the first kind In(x).
BESSELI(X; N)
X is the value on which the function will be calculated.
N is a positive integer (N >= 0) representing the order of the Bessel function In(x)
=BESSELI(3.45, 4), returns 0.651416873060081
=BESSELI(3.45, 4.333), returns 0.651416873060081, same as above because the fractional part of N is ignored.
=BESSELI(-1, 3), returns -0.022168424924332
BESSELJ
Calculates the Bessel function of the first kind Jn(x) (cylinder function).
BESSELJ(X; N)
X is the value on which the function will be calculated.
N is a positive integer (N >= 0) representing the order of the Bessel function Jn(x)
=BESSELJ(3.45, 4), returns 0.196772639864984
=BESSELJ(3.45, 4.333), returns 0.196772639864984, same as above because the fractional part of N is ignored.
=BESSELJ(-1, 3), returns -0.019563353982668
BESSELK
Calculates the modified Bessel function of the second kind Kn(x).
BESSELK(X; N)
X is the strictly positive value (X > 0) on which the function will be calculated.
N is a positive integer (N >= 0) representing the order of the Bessel function Kn(x)
=BESSELK(3.45, 4), returns 0.144803466373734
=BESSELK(3.45, 4.333), returns 0.144803466373734, same as above because the fractional part of N is ignored.
=BESSELK(0, 3), returns Err:502 – invalid argument (X=0)
BESSELY
Calculates the Bessel function of the second kind Yn(x).
BESSELY(X; N)
X is the strictly positive value (X > 0) on which the function will be calculated.
N is a positive integer (N >= 0) representing the order of the Bessel function Yn(x)
=BESSELY(3.45, 4), returns -0.679848116844476
=BESSELY(3.45, 4.333), returns -0.679848116844476, same as above because the fractional part of N is ignored.
=BESSELY(0, 3), returns Err:502 – invalid argument (X=0)
BINDODEC
The result is the number for the binary (base-2) number string entered.
BIN2DEC(Number)
Number is a string representing a binary (base-2) number. It can have a maximum of 10 places (bits). The most significant bit is the sign bit. Negative numbers are entered as two's complement.
=BIN2DEC("1100100") returns 100.
BINDOHEKS
The result is the string representing the number in hexadecimal form for the binary (base-2) number string entered.
BIN2HEX(Number [; Places])
Number is a string representing a binary (base-2) number. It can have a maximum of 10 places (bits). The most significant bit is the sign bit. Negative numbers are entered as two's complement.
Places means the number of places to be output.
=BIN2HEX("1100100";6) returns "000064".
BINDOOKT
The result is the string representing the number in octal form for the binary (base-2) number string entered.
BIN2OCT(Number [; Places])
Number is a string representing a binary (base-2) number. It can have a maximum of 10 places (bits). The most significant bit is the sign bit. Negative numbers are entered as two's complement.
Places means the number of places to be output.
=BIN2OCT("1100100";4) returns "0144".
DECDOBIN
The result is the string representing the number in binary (base-2) form for the number entered.
DEC2BIN(Number [; Places])
Number is a number between -512 and 511. If Number is negative, the function returns a binary number string with 10 characters. The most significant bit is the sign bit, the other 9 bits return the value.
Places means the number of places to be output.
=DEC2BIN(100;8) returns "01100100".
DECDOHEKS
The result is the string representing the number in hexadecimal form for the number entered.
DEC2HEX(Number [; Places])
Number is a number. If Number is negative, the function returns a hexadecimal number string with 10 characters (40 bits). The most significant bit is the sign bit, the other 39 bits return the value.
Places means the number of places to be output.
=DEC2HEX(100;4) returns "0064".
DECDOOKT
The result is the string representing the number in octal form for the number entered.
DEC2OCT(Number [; Places])
Number is a number. If Number is negative, the function returns an octal number string with 10 characters (30 bits). The most significant bit is the sign bit, the other 29 bits return the value.
Places means the number of places to be output.
=DEC2OCT(100;4) returns "0144".
DELTA
The result is TRUE (1) if both numbers, which are delivered as an argument, are equal, otherwise it is FALSE (0).
DELTA(Number1 [; Number2])
=DELTA(1;2) returns 0.
GAUSSZ.DOKRADNY
Returns values of the Gaussian error integral between 0 and the given limit.
ERF.PRECISE(LowerLimit)
LowerLimit is the limit of the integral. The calculation takes place between 0 and this limit.
=ERF.PRECISE(1) returns 0.842701.
COM.MICROSOFT.ERF.PRECISE
GAUSSZKOMPL.DOKRADNY
Returns complementary values of the Gaussian error integral between x and infinity.
ERFC.PRECISE(LowerLimit)
LowerLimit is the lower limit of the integral
=ERFC.PRECISE(1) returns 0.157299.
COM.MICROSOFT.ERFC.PRECISE
GCEŁALICBA
The result is 1 if Number is greater than or equal to Step.
GESTEP(Number [; Step])
=GESTEP(5;1) returns 1.
HEKSDOBIN
The result is the string representing the number in binary (base-2) form for the hexadecimal number string entered.
HEX2BIN(Number [; Places])
Number is a string that represents a hexadecimal number. It can have a maximum of 10 places. The most significant bit is the sign bit, the following bits return the value. Negative numbers are entered as two's complement.
Places is the number of places to be output.
=HEX2BIN("6a";8) returns "01101010".
HEKSDODEC
The result is the number for the hexadecimal number string entered.
HEX2DEC(Number)
Number is a string that represents a hexadecimal number. It can have a maximum of 10 places. The most significant bit is the sign bit, the following bits return the value. Negative numbers are entered as two's complement.
=HEX2DEC("6a") returns 106.
HEKSDOOKT
The result is the string representing the number in octal form for the hexadecimal number string entered.
HEX2OCT(Number [; Places])
Number is a string that represents a hexadecimal number. It can have a maximum of 10 places. The most significant bit is the sign bit, the following bits return the value. Negative numbers are entered as two's complement.
Places is the number of places to be output.
=HEX2OCT("6a";4) returns "0152".
ZMÓF
Returns values of the Gaussian error integral.
ERF(LowerLimit [; UpperLimit])
LowerLimit is the lower limit of the integral.
UpperLimit is optional. It is the upper limit of the integral. If this value is missing, the calculation takes place between 0 and the lower limit.
=ERF(0;1) returns 0.842701.
ZMÓFK
Returns complementary values of the Gaussian error integral between x and infinity.
ERFC(LowerLimit)
LowerLimit is the lower limit of the integral
=ERFC(1) returns 0.157299.