Functions
When writing out measurement equations in Seamly, there are many mathematical functions that one may use to make them work seamlessly. This is a list of the functions, with a one-line example of how to actually use them in equations. Functions are served by the muparser math library.[1]
![The Functions table in the Measurement Dialog is an excellent place to find most of the available algebraic functions of Seamly.](http://static.miraheze.org/seamlywiki/thumb/c/c9/MeasurementDialogFunctionsTable.png/300px-MeasurementDialogFunctionsTable.png)
Basic Functions[edit | edit source]
These are functions which are so basic that they didn't get included in the list
+ plus (3+4=7)
- minus (3-4=-1)
* times (3*4=12)
/ divided by (3/4=.75)
^ to the power of (3^4=81)
Advanced Functions[edit | edit source]
Most of these functions are found in the table, however IF, (& possibly others?) are not in the list. I will list IF first, & then proceed in alphabetical order as the functions appear in the list. It may be better to list them by branch of mathematics, but for now the list, & thus the alphabet, has priority.
Variables are always welcome to be equations, they do not need to be numerals.
IF function[edit | edit source]
- if a<b then c else d looks like ( a<b ? c : d) in Seamly2D formulas.
- if e<f then f else g looks like (e<f ? f : g)
- When d is another test, then it looks like: ( a<b ? c : (e<f ? f : g) )[2]
_pi - π[edit | edit source]
- Definition: π is equal to how many times a diameter can go around its circle. In Seamly it is taken to the fifth decimal place: 3.14159
- Why: To work with circles. For instance, if you want to make a circle of a certain circumference, you might use the equation
head_circ/_pi/2
abs - absolute value[edit | edit source]
- Definition: a nonnegative number equal in numerical value to a given real number.[3]In other words, "How far is this number from zero?" -2 is still absolutely 2 spaces from zero, even if it's on the wrong side of the tracks.
- Use: abs(N)[4] always returns a positive value
- Why: Because in some equations you might want the difference between two measurements to come back positive regardless of which is larger. I'm sure I've read about such occurrences somewhere.
acos - arcus cosine function working with radians[edit | edit source]
Use: acos(N) where -1≤N≤1
acosD - arcus cosine function working with degrees[edit | edit source]
Use: acosD(N) where -1≤N≤1
acosh - hyperbolic arcus cosine function[edit | edit source]
Use: acosh(N) where N≥1
asin - arcus sine function working with radians[edit | edit source]
Use: asin(N) where -1≤N≤1
asinD - arcus sine function working with degrees[edit | edit source]
Use: asinD(N) where -1≤N≤1
asinh - hyperbolic arcus sine function[edit | edit source]
Use: asinh(N)
atan - arcus tangens function working with radians[edit | edit source]
Use: atan(N)
atanD - arcus tangens function working with degrees[edit | edit source]
Use: atanD(N)
atanh - hyperbolic arcur tangens function[edit | edit source]
Use: atanh(N) where -1<N<1
avg - (average,) mean value of all arguments[edit | edit source]
Use: avg(N1;N2;N3;…)
cos - cosine function working with radians[edit | edit source]
Use: cos(N)
cosD - cosine function working with degrees[edit | edit source]
Use: cosD(N)
cosh - hyperbolic cosine[edit | edit source]
Use: cosh(N)
degTorad - converts degrees to radian[edit | edit source]
Use: degTorad(N)
exp - e raised to the power of x[edit | edit source]
Use: exp(N) If you have as much a clue what this is for as I do, may I suggest the Wikipedia article on the number e?
fmod - Returns the floating-point remainder of numer/denom (rounded towards zero)[edit | edit source]
Use: fmod(N;D)
ln - logarithm to base e (2.71828…)[edit | edit source]
Use: ln(N) where N>0
log - logarithm to the base 10[edit | edit source]
Use: log(N) where N>0
log10 - logarithm to the base 10[edit | edit source]
Use: log10(N) where N>0
log2 - logarithm to the base 2[edit | edit source]
Use: log2(N) where N>0
max - max of all arguments[edit | edit source]
Use: max(N;N1;N2;…)
min - min of all arguments[edit | edit source]
Use: min(N;N1;N2;…)
radTodeg - converts radian to degrees[edit | edit source]
Use: radTodeg(N)
rint - round to nearest integer[edit | edit source]
Use: rint(N)
sign - sign function -1 if x<0; 1 if x>0[edit | edit source]
Use: sign(N)
sin - sine function working with radians[edit | edit source]
Use: sin(N)
sinD - sine function working with degrees[edit | edit source]
Use: sinD(N)
sinh - hyperbolic sine function[edit | edit source]
Use: sinh(N)
sqrt - square root of a value[edit | edit source]
Use: sqrt(N) where N≥0
sum - sum of all arguments[edit | edit source]
Use: sum(N;N1;N2;…)
tan - tangens function working with radians[edit | edit source]
Use: tan(N)
tanD - tangens function working with degrees[edit | edit source]
Use: tanD(N)
tanh - hyperbolic tangens function[edit | edit source]
Use: tanh(N)