I often use Octave to create data that I can plot from my lab results. That data is then fitted with some function in gnuplot:

```
f1(x) = a * exp(-x*g);
fit f1(x) "c_1.dat" using 1:2:3 via a,g
```

That creates a `fit.log`

:

```
*******************************************************************************
Tue May 8 19:13:39 2012
FIT: data read from "e_schwach.dat" using 1:2:3
format = x:z:s
#datapoints = 16
function used for fitting: schwach(x)
fitted parameters initialized with current variable values
Iteration 0
WSSR : 12198.7 delta(WSSR)/WSSR : 0
delta(WSSR) : 0 limit for stopping : 1e-05
lambda : 14.2423
initial set of free parameter values
mu2 = 1
omega2 = 1
Q2 = 1
After 70 iterations the fit converged.
final sum of squares of residuals : 46.0269
rel. change during last iteration : -2.66463e-06
degrees of freedom (FIT_NDF) : 13
rms of residuals (FIT_STDFIT) = sqrt(WSSR/ndf) : 1.88163
variance of residuals (reduced chisquare) = WSSR/ndf : 3.54053
Final set of parameters Asymptotic Standard Error
======================= ==========================
mu2 = 0.120774 +/- 0.003851 (3.188%)
omega2 = 0.531482 +/- 0.0006112 (0.115%)
Q2 = 17.6593 +/- 0.7416 (4.199%)
correlation matrix of the fit parameters:
mu2 omega2 Q2
mu2 1.000
omega2 -0.139 1.000
Q2 -0.915 0.117 1.000
```

Is there some way to get the parameters and their error back into Octave? I mean I can write a Python program that parses that, but I hoped to avoid that.

# Update

This question is not applicable to me any more, since I use Python and matplotlib for my lab work now, and it can does all this from a single program. I leave this question open in case somebody else has the same problem.