Running a script once, reserves input parameters and outputs in Python's namespace, allowing you to check the state of these in the Interactive Window, IW, at any time. Often I save the results of the Interactive Window to document a particular case or change in state of one of the inputs. I was getting bored writing multiple print statements to try to remember what the inputs and outputs were. Moreover, I had documented all this in the script in the header.

I decided to combine the best of both worlds: 1) reduce the number of print statements; 2) retrieve the header information so I could check namespace and outputs in the IW which I could then save and/or print.

The following are the results of a demo scripts output which includes the input namespace and their meaning and the results for a run. The actual script is not relevant but I have included it anyways as an attachment. The example here is the result from PythonWin's IW. I did take a huge chunk out of the outputs to facilitate reading.

`----------------------------------------------------------------------`

:Script: matrix_covariance_demo.py

:Author: Dan.Patterson@carleton.ca

:Modified: 2016-10-25

:

:Notes:

: Namespace....

: x, y x,y values

: xy_s X,Y values zipped together forming a column list

: x_m, y_m means of X and Y

: x_t, x_t X and Y converted to arrays and translated to form row arrays

: s_x, s_y sample std. deviations

: v_x, v_y sample variances

: cov_m numpy covariance matrix, sample treatement, see docs re: ddof

: Exy sum of the X_t,Y_t products

: cv_alt alternate method of calculating "cov_m" in terms of var. etc

:

: Useage....

: Create a list of key values in execuation order, print using locals()

: Syntax follows...

: names = ["x","x","xy_s","x_m","y_m","xy_t","x_t","y_t",

: "s_x","s_y","v_x","v_y","cov_m","Exy","n","cv_alt"]

: for name in names:

: print("{!s:<8}:\n {!s: <60}".format(name, locals()[name]))

:

:References

: http://en.wikipedia.org/wiki/Pearson_product-moment_

: correlation_coefficient

: http://stackoverflow.com/questions/932818/retrieving-a-variables-

: name-in-python-at-runtime

:

)

Results listed in order of execution:

x .... [1.0, 2.0, 3.0, 5.0, 8.0]

y .... [0.11, 0.12, 0.13, 0.15, 0.18]

xy_s .... [(1.0, 0.11), (2.0, 0.12), (3.0, 0.13), (5.0, 0.15), (8.0, 0.18)]

x_m .... 3.8

y_m .... 0.138

x_t .... [-2.800 -1.800 -0.800 1.200 4.200]

y_t .... [-0.028 -0.018 -0.008 0.012 0.042]

s_x .... 2.7748873851

s_y .... 0.027748873851

v_x .... 7.7

v_y .... 0.00077

cov_m .... [[ 7.700 0.077], [ 0.077 0.001]]

Exy .... 0.308

n .... 4

cv_alt.... [[ 7.700 0.077], [ 0.077 0.001]]

Now the code.... I have left out the scripts doc since I always like to keep a copy in the output so I don't forget what I used to produce it. The only real important parts are the list of **names** in the main part of the script and the lines in the **__main__ **section to process the **locals()** variable yes.

`.... SNIP ....`

import sys

import numpy as np

from numpy.linalg import linalg as nla

from textwrap import dedent

ft = {"bool": lambda x: repr(x.astype("int32")),

"float": "{: 0.3f}".format}

np.set_printoptions(edgeitems=10, linewidth=80, precision=2,

suppress=True, threshold=100,

formatter=ft)

script = sys.argv[0]

#

# .... Variables and calculations ....

x = [1.0, 2.0, 3.0, 5.0, 8.0] # x values

y = [0.11, 0.12, 0.13, 0.15, 0.18] # y values

xy_s = list(zip(x, y)) # stack together

x_m, y_m = np.mean(xy_s, axis=0) # get the means

xy_t = np.array(xy_s) - [x_m, y_m] # convert to an array and translate

x_t, y_t = xy_t.T # x,y coordinates, transposed array

s_x, s_y = np.std(xy_t, axis=0, ddof=1) # sample std. deviations

v_x, v_y = np.var(xy_t, axis=0, ddof=1) # sample variances

cov_m = np.cov(x_t, y_t, ddof=1) # covariance matrix

#

# .... alternate expressions of the covariance matrix ....

Exy = np.sum(np.product(xy_t, axis=1)) # sum of the X_t,Y_t products

n = len(x_t) - 1

cv_alt = np.array([[v_x, Exy/n], [Exy/n, v_y]])

# create a list of key values in execution order format from locals()[name]

names = ["x", "y", "xy_s",

"x_m", "y_m", "x_t", "y_t",

"s_x", "s_y", "v_x", "v_y",

"cov_m", "Exy", "n", "cv_alt"]

#-------------------------

if __name__ == "__main__":

print("\n{}\n{})".format("-"*70, __doc__))

print("\nResults listed in order of execution:")

for name in names:

args = [name, str(locals()[name]).replace("\n", ",")]

print("{!s:<6}.... {!s:}".format(*args))

Hope you find something useful in this. Send comments via email.