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I want to generate a variable recursively with certain conditions. Let's call the variable x. x is generated differently under different conditions.

  1. x_t=L1.x_t^a + b/2 if L1.x_t^a+b<c and L1.x_t > d
  2. x_t=1+0.5x_t^a if L1.x_t^a+b>c and L1.x_t > d
  3. x_t=L1.x_t^a if L1.x_t < d

I know how to implement this in R but not sure how I go about doing this in Stata. I have tried the following 2 pieces of code but none worked.

gen x = 1
forvalues i = 2/_N {
    scalar temp = x[`i'-1]^a + b
    replace x = x[`i'-1]^a + b/2 if temp < c & x[`i'-1] > d
    replace x = 1 + x[`i']/2 if temp > c & x[`i'-1] > d
    replace x = x[`i'-1]^a if x[`i'-1] < d
}

gen x = 1
gen temp = L.x^a + b
replace x = L.x^a + b/2 if L.x > d & _n > 1 & temp < c
replace x = 1 + L.x^a/2 if temp > c & _n > 1 & L.x > d
replace x = L.x^a if L.x < d & _n > 1

The first piece of code gives an error invalid syntax. The second piece of code didn't deliver what I thought it would. I know where the problem lies, that is temp should be replaced after every call of x, but I don't know how to implement this.

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That's a bizarre-looking set of conditions!

There are several details that stop all your code examples being reproducible by anyone else.

  1. Anyone else needs to set the number of observations.
  2. You need to explain a b c d as entities in Stata. Are they variables, constants held as variables, or constants held as scalars?
  3. For a lag operator L. to work, you need to tsset or xtset the dataset first, implying at least one other variable that indicates time or sequence, but this is not explained.

A specific problem with the first block of code is that forvalues won't evaluate _N for you. You need to go

forval i = 2/`=_N'

A general problem with that block of code is that you probably want each replace statement to be

... in `i'

"didn't deliver what I thought it would" is not a problem I can address. Without a worked example showing what the calculations should produce and what they do, I am clueless.

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  • Ah yes I did skip a bit in the explanation for the first 3 points. The problem I was referring to is that since temp is generated before the variable x, the condition with respect to temp is only true for x available before temp was calculated which is x[1]=1, thereby invalidates all the conditions thereafter (or rather they are not calculated). I managed to make it work by rerunning the piece of code using the forval loop for every observation.
    – Rei
    Aug 14, 2021 at 8:56
  • Good that you solved your problem: I don't understand the comment, however, and the thread is unlikely to be useful to anyone else as neither your precise problem nor your precise solution is at all clear. I recommend deleting the thread unless you can improve the question and provide your own answer.
    – Nick Cox
    Aug 14, 2021 at 9:38

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