MUIPlot 0.2 =========== simple function plotter type the forumla into the edit choose the Range for the x Variable (X-Axis) and press Recalculate to plot the curve. Plot Context Menu ***************** The plot menu has a context menu (click right mouse button to plot) with the entries: Rescale Rescale the Plot to show the full calculated Curve Zoom Mouse Click in the plot zoom into the Curve Position Data Show Mouse position coordinates Curve Data Show nearest Curve Value Set Marker Set the Marker Position (not in use atm.) Export as ASCII Save the Curve Data as ASCII File (TAB separated) Export as PNG Save the Current shown Plot as PNG Image Zoom ---- To Zoom click into the plot and drag towards right-bottom to select the area to zoom to. If you start top left and move to right bottom you zoom in, if you you start right bottom and move to top left it act as rescale. Syntax: ******* Numbers ------- you can use '.' or ',' as decimal separator 0..9 decimal numbers e.g. "42" result=42 "1.54e3", "-134.44", "12,33e-4" $0..9 A..F hexadecimal numbers e.g. "$42" result=66 %0,1 binary numbers e.g. "%0110" result=6 Pi the number Pi e.g. "pi" result=3.14159265358979 Operations ---------- + add numbers together e.g. "3+2" result=5 - subtract number e.g. "3-2" result=1 * multipy numbers e.g. "3*2" result=6 / divide numbers e.g. "3/2" result=1.5 \ integer divide e.g. "3\2" result=1 % divide modulo e.g. "3%2" result=1 ^ raise to the power e.g. "3^2" result=9 & bitwise and e.g. "3&2" result=2 | bitwise or e.g. "3|2" result=3 # bitwise xor e.g. "3#2" result=1 < bitwise shift left e.g. "3<2" result=12 > bitwise shift right e.g. "5>2" result=1 Trigonometic Functions ---------------------- sin sine function, parameter in degree e.g. "sin(90)" result=1 cos cosine function, parameter in degree e.g. "cos(90)" result=0 tan tangent function, parameter in degree e.g. "tan(45)" result=1 sinr sine function, parameter in radiant e.g. "sinr(pi/2)" result=1 cosr cosine function, parameter in radiant e.g. "cosr(pi/2)" result=0 tanr tangent function, parameter in radiant e.g. "tanr(pi/4)" result=1 asin arcsine function, parameter in degree e.g. "asin(1)" result=90 acos arccosine function, parameter in degree e.g. "acos(0)" result=90 atan arctangent function, parameter in degree e.g. "atan(1)" result=45 asinr arcsine function, parameter in radiant e.g. "asinr(1)" result=1.5707963267949 acosr arccosine function, parameter in radiant e.g. "acosr(0)" result=1.5707963267949 atanr arctangent function, parameter in radiant e.g. "atanr(1)" result=0.785398163397448 other functions --------------- round() round using IEEE754 rounding rules e.g. "round(-1.5)" result=-2 "round(1.5)" result=2 ceil() round always upwards e.g. "ceil(-1.1)" result=-1 "ceil(1.1)" result=2 floor() round always downwards e.g. "floor(-1.1)" result=-2 "floor(1.1)" result=1 int() cut away the after point decimals e.g. "int(-1.1)" result=-1 "floor(1.1)" result=1 abs() absolute value e.g. "abs(-42)" result= 42 "abs(42)" result=42 fak() factorial (1*2*3*...*n) e.g. "fak(5)" result=120 sqrt() square root e.g. "sqrt(9)" result=3 rand() random between 0 and parameter e.g. "rand(100)" result=54 swap() change 32 bit endianess e.g. "swap($12345678)" result=2018915346 ($78563412) exp() exponential (e^n) e.g. "exp(5)" result=148.413159102577 ln() natural logarithm e.g. "ln(5)" result=1.6094379124341 lg() logarithm base 10 e.g. "lg(100)" result=2 lb() logarithm base 2 e.g. "lb(8)" result=3