QtiPlot supports two different interpreters
for evaluating mathematical expressions and for executing scripts:
*muParser* and *Python*.
*muParser* can be only used for the evaluation of mathematical expressions,
whereas *Python* can be used to execute scrips.
The default interpreter is *muParser* therefore if you want to execute scripts you should first
enable the *Python* scripting engine via the
Scripting language dialog.
Also, you can define the default scripting interpreter via the *General* tab
of the Preferences dialog.

The constants _e=e=E and _pi=pi=PI=Pi are defined, as well as the following fundamental physical constants, operators and functions. Please note that the fundamental constants cannot be redefined. Doing so will raise an error message. The values of the physical constants listed bellow are defined using the standard MKSA unit system (meters, kilograms, seconds, amperes):

**Table 7-1. muParser: Predefined Fundamental Physical Constants in the standard MKSA unit system**

Name | Description |
---|---|

c | The speed of light in vacuum |

eV | The energy of 1 electron volt |

g | The standard gravitational acceleration on Earth |

G | The gravitational constant |

h | Planck's constant |

hbar | Planck's constant divided by 2 pi |

k | The Boltzmann constant |

Na | Avogadro's number |

R0 | The molar gas constant |

V0 | The standard gas volume |

Ry | The Rydberg constant, in units of energy |

**Table 7-2. muParser: Supported Mathematical Operators**

Name | Description |
---|---|

+ | Addition |

- | Subtraction |

* | Multiplication |

/ | Division |

% | Modulus operator (returns the remainder of a when divided by b) |

^ | Exponentiation (raise a to the power of b) |

< | less than (returns 0 or 1) |

<= | less than or equal (returns 0 or 1) |

== | equal (returns 0 or 1) |

>= | greater than or equal (returns 0 or 1) |

> | greater than (returns 0 or 1) |

!= | not equal (returns 0 or 1) |

**Table 7-3. muParser: Mathematical Functions**

Name | Description |
---|---|

abs(x) | absolute value of x |

acos(x) | inverse cosine |

acosh(x) | inverse hyperbolic cosine |

asin(x) | inverse sine |

asinh(x) | inverse hyperbolic sine |

atan(x) | inverse tangent |

atanh(x) | inverse hyperbolic tangent |

avg(x1,x2,x3,...) | average value, this command accept a list of arguments separated by commas |

bessel_j0(x) | Regular cylindrical Bessel function of zeroth order,
J_{0}(x). |

bessel_j1(x) | Regular cylindrical Bessel function of first order,
J_{1}(x). |

bessel_jn(x,n) | Regular cylindrical Bessel function of
n^{th} order,
J_{n}(x). |

bessel_y0(x) | Irregular cylindrical Bessel function of zeroth order,
Y_{0}(x) for x>0. |

bessel_y1(x) | Irregular cylindrical Bessel function of first order,
Y_{1}(x) for x>0. |

bessel_yn(x,n) | Irregular cylindrical Bessel function of
n^{th} order,
Y_{n}(x) for x>0. |

beta (a,b) | Computes the Beta Function, B(a,b) = Gamma(a)*Gamma(b)/Gamma(a+b) for a > 0 and b > 0. |

cos(x) | cosine of x |

cosh(x) | hyperbolic cosine of x |

erf(x) | error function of x |

erfc(x) | Complementary error function erfc(x) = 1 - erf(x). |

erfz(x) | The Gaussian probability density function Z(x). |

erfq(x) | The upper tail of the Gaussian probability function Q(x). |

exp(x) | Exponential function: e raised to the power of x. |

gamma(x) | Computes the Gamma function, subject to x not being a negative integer |

gammaln(x) | Computes the logarithm of the Gamma function, subject to x not a being negative integer. For x<0, log(|Gamma(x)|) is returned. |

hazard(x) | Computes the hazard function for the normal distribution h(x) = erfz(x)/erfq(x). |

ln(x) | natural logarithm of x |

log(x) | decimal logarithm of x |

log2(x) | base 2 logarithm of x |

min(x1,x2,x3,...) | Minimum of the list of arguments |

max(x1,x2,x3,...) | Maximum of the list of arguments |

rint(x) | Round to nearest integer. |

sign(x) | Sign function: -1 if x<0; 1 if x>0. |

sin(x) | sine of x |

sinh(x) | hyperbolic sine of x |

sqrt(x) | square root of x |

tan(x) | tangent of x |

tanh(x) | hyperbolic tangent of x |

**Table 7-4. muParser: Other functions**

Name | Description |
---|---|

cell(a,b) | In the context of a matrix, returns the value at row a and column b. In the context of a table, returns the value at column a and row b (remember that tables use column logic). Everywhere else, this function is undefined. |

col(c) | Only works in the context of a table. Returns the value at column c and row i (the current row) in the context table. c can either be the column's number, or its name in doublequotes. |

if(e1,e2,e3) | if e1 is true, e2 is executed else e3 is executed. |

tablecol(t,c) | Only works in the context of a table. Returns the value at column c and row i (the current row) in the table t. t is the table's name in doublequotes, c is either the column's number or its name in doublequotes. |

interp(y,i,x) | Takes a column name y, in doublequotes, and the corresponding abscissae stored in the column with index i from the same data table and linearly interpolates an ordinate at a given abscissa x. Only works in the context of a table. |

AVG(n,i,j) | The average of all cells from row i to j in column with name n (in doublequotes). A negative value of the end row j means the last table row. Only works in the context of a table. |

MIN(n,i,j) | The minimum value of all cells from row i to j in column with name n (in doublequotes). A negative value of the end row j means the last table row. Only works in the context of a table. |

MAX(n,i,j) | The maximum value of all cells from row i to j in column with name n (in doublequotes). A negative value of the end row j means the last table row. Only works in the context of a table. |

SD(n,i,j) | The standard deviation of all cells from row i to j in column with name n (in doublequotes). A negative value of the end row j means the last table row. Only works in the context of a table. |

SUM(n,i,j) | The sum of all cells from row i to j in column with name n (in doublequotes). A negative value of the end row j means the last table row. Only works in the context of a table. |

rms(n,i,j) | The root mean square of all cells from row i to j in column with name n (in doublequotes). A negative value of the end row j means the last table row. Only works in the context of a table. |