Runge-Kutta

The deeper I dig into @Phil_Seamark's fantastic new book, Beginning DAX with Power BI: The SQL Pro’s Guide to Better Business Intelligence, the more cool stuff I find. This time it is Nested VAR statements. Who knew? Well, the cool part about finding this particular nugget of wisdom is that it finally allowed me to more elegantly solve another rather vexing problem that I blogged about in my article Runge-Kutta and the Limits of DAX. 

Because of the localization of variables but with the ability to intelligently reference variables at higher levels in the nesting, I was finally able to come up with a much more elegant single measure solution to Runge-Kutta that allows me to keep my variable names consistent throughout the calculation. 

The calculation below takes a table of time intervals, 0, .5, 1, 1.5, 2 (h=0.5) and the following two definitions:

y' = y−t^2 + 1

y(0) = 0.5

m_w = 
VAR tCurrent = MAX(RK4[t])
VAR t=0
VAR w = 0.5
VAR h = 0.5
VAR step1 = IF(
                tCurrent=0,
                w,
                VAR k1t = t
                VAR t = t+h
                VAR k1w = w
                VAR k1 = h*(k1w - k1t^2 + 1)
                VAR k2t = k1t + h/2
                VAR k2w = k1w + k1/2
                VAR k2 = h*(k2w - k2t^2 + 1)
                VAR k3t = k1t + h/2
                VAR k3w = k1w + k2/2
                VAR k3 = h*(k3w - k3t^2 + 1)
                VAR k4t = k1t + h
                VAR k4w = k1w + k3
                VAR k4 = h*(k4w - k4t^2 + 1)
                VAR w = k1w + (k1 + 2*k2 + 2*k3 + k4)/6

                VAR step2 = IF(
                                tCurrent=h,
                                w,
                                VAR k1t = t
                                VAR t = t+h
                                VAR k1w = w
                                VAR k1 = h*(k1w - k1t^2 + 1)
                                VAR k2t = k1t + h/2
                                VAR k2w = k1w + k1/2
                                VAR k2 = h*(k2w - k2t^2 + 1)
                                VAR k3t = k1t + h/2
                                VAR k3w = k1w + k2/2
                                VAR k3 = h*(k3w - k3t^2 + 1)
                                VAR k4t = k1t + h
                                VAR k4w = k1w + k3
                                VAR k4 = h*(k4w - k4t^2 + 1)
                                VAR w = k1w + (k1 + 2*k2 + 2*k3 + k4)/6

                                VAR step3 = IF(
                                                tCurrent=2*h,
                                                w,
                                                VAR k1t = t
                                                VAR t = t+h
                                                VAR k1w = w
                                                VAR k1 = h*(k1w - k1t^2 + 1)
                                                VAR k2t = k1t + h/2
                                                VAR k2w = k1w + k1/2
                                                VAR k2 = h*(k2w - k2t^2 + 1)
                                                VAR k3t = k1t + h/2
                                                VAR k3w = k1w + k2/2
                                                VAR k3 = h*(k3w - k3t^2 + 1)
                                                VAR k4t = k1t + h
                                                VAR k4w = k1w + k3
                                                VAR k4 = h*(k4w - k4t^2 + 1)
                                                VAR w = k1w + (k1 + 2*k2 + 2*k3 + k4)/6

                                                VAR step4 = IF(
                                                                tCurrent=3*h,
                                                                w,
                                                                VAR k1t = t
                                                                VAR t = t+h
                                                                VAR k1w = w
                                                                VAR k1 = h*(k1w - k1t^2 + 1)
                                                                VAR k2t = k1t + h/2
                                                                VAR k2w = k1w + k1/2
                                                                VAR k2 = h*(k2w - k2t^2 + 1)
                                                                VAR k3t = k1t + h/2
                                                                VAR k3w = k1w + k2/2
                                                                VAR k3 = h*(k3w - k3t^2 + 1)
                                                                VAR k4t = k1t + h
                                                                VAR k4w = k1w + k3
                                                                VAR k4 = h*(k4w - k4t^2 + 1)
                                                                VAR w = k1w + (k1 + 2*k2 + 2*k3 + k4)/6
                                                                RETURN w
                                                            )
                                                RETURN step4
                                            )
                                RETURN step3
                            )
            RETURN step2
        )
RETURN step1

Thanks again @Phil_Seamark!!

eyJrIjoiYzdmYjUxNDEtZDQ1YS00NGRkLWI2N2QtOGQ1ZDUzZWFlZTg2IiwidCI6IjRhMDQyNzQzLTM3M2EtNDNkMi04MjdiLTAwM2Y0YzdiYTFlNSIsImMiOjN9

Follow on LinkedIn
@ me in replies or I'll lose your thread!!!
Instead of a Kudo, please vote for this idea
Become an expert!: Enterprise DNA
External Tools: MSHGQM
YouTube Channel!: Microsoft Hates Greg
Latest book!: Power BI Cookbook Third Edition (Color)

DAX is easy, CALCULATE makes DAX hard...