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// Various float functions
/*
// (---general---)
#declare X=div(A,B); // A/B (integer)
#declare X=mod(A,B); // A modulo B
#declare X=sqrt(A); // square root of A
#declare X=exp(A); // e^A
#declare X=log(A); // Natural logarithm of A
#declare X=pow(A,B); // A^B
#declare X=max(A,B,C, ...); // Maximum of A, B, C, ...
#declare X=min(A,B,C, ...); // Minimum of A, B, C, ...
#declare X=int(A); // truncate A to integer part
#declare X=abs(A); // Absolute value of A
#declare X=ceil(A); // ceiling of A (smallest larger integer)
#declare X=floor(A); // floor of A (largest smaller integer)
#declare X=defined(A); // true if A is a defined identifier
// (---trigonometric---)
#declare X=cos(A); // cosine of A
#declare X=cosh(A); // hyperbolic cosine of A
#declare X=sin(A); // sine of A
#declare X=sinh(A); // hyperbolic sine of A
#declare X=tan(A); // tangent of A
#declare X=tanh(A); // hyperbolic tangent of A
#declare X=acos(A); // arc-cosine of A
#declare X=acosh(A); // hyperbolic Arc-cosine of A
#declare X=asin(A); // arc-sine of A
#declare X=asinh(A); // hyperbolic Arc-sines of A
#declare X=atan(A); // arc-tangent of A
#declare X=atanh(A); // hyperbolic Arc-tangent of A
#declare X=atan2(A,B); // arc-tangent of (A/B)
#declare X=degrees(A); // convert radians to degrees
#declare X=radians(A); // convert degrees to radians
// (---arrays---)
#declare X=dimensions(A); // Number of dimensions of Array A
#declare X=dimension_size(A,B); // Size of Array A in dimension B
For more functions see "math.inc".
*/
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