Tips and tricks: Difference between revisions

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It is sometimes irritating when a calculation takes very long and nothing appears to happen. In such cases a step monitor may be useful to indicate the state of the calculations. It is a simple gimmick.
It is sometimes irritating when a calculation takes very long and nothing appears to happen. In such cases a step monitor may be useful to indicate the state of the calculations. It is a simple gimmick.


Take, as an example, a modification of the Listing 37.1: Finding the minimum of the Rosenbrock function with the BFGSmax routine given in Gretl's user guide. The <code>printf</code>current command prints the values of x and y and ends with a carriage return. The command <code>flush</code> induces printing at each step. To simulate a time consuming routine, a delay of .003 has been inserted by giving the command <code>sleep(.003)</code>.
Take, as an example, a modification of the Listing 37.1: Finding the minimum of the Rosenbrock function with the BFGSmax routine given in Gretl's user guide. The <code>printf</code>  command prints the values of x and y and ends with a carriage return. The command <code>flush</code> induces printing at each step. To simulate a time consuming routine, a delay of .003 has been inserted by giving the command <code>sleep(.003)</code>.


Open the the gretl script editor (File → Script files → New script) and paste the following code:
Open the the gretl script editor (File → Script files → New script) and paste the following code:
<pre>
set verbose off
# This defines the function to be maximized
function scalar Rosenbrock( const matrix param "parameters" )
scalar x = param[1]
scalar y = param[2]
printf "x =%7.4f, y =%7.4f \r",x,y            # the information printed at each step
flush                                        # this induces immediate printing
sleep(.003)                                  # this simulates a time-consuming process
return -(1-x)^2 - 100 * (y - x^2)^2
end function


<code># This defines the function to be maximized</code>
# This invokes the maximization routine
 
matrix theta = {0, 0}                        # initial values for theta
<code>function scalar Rosenbrock( const matrix param "parameters" )</code>
set max_verbose off
 
M = BFGSmax(&theta, Rosenbrock(theta) )
<code>scalar x = param[1]</code>
printf "                     \r"             # destroy the last step message
 
flush                                        # flush it
<code>scalar y = param[2]</code>
printf "\ntheta: %8.4f \n", theta
 
</pre>
<code>printf "x =%7.4f, y =%7.4f \r",x,y            # the information printed at each step</code>
Now run the script (push the gears button or Ctrl+R). The successive estimates of x and y will be monitored. Other information can easily be monitored as well, the value of the criterion <code>-(1-x)^2 - 100 * (y - x^2)^2</code> for instance, by simply including it in the <code>printf</code> command in the Rosenbrook function.
 
<code>flush                                        # this induces immediate printing</code>
 
<code>sleep(.003)                                  # this simulates a time-consuming process</code>
 
<code>return -(1-x)^2 - 100 * (y - x^2)^2</code>
 
<code>end function</code>
 




<code># This invokes the maximization routine</code>
=== "=" trick for eval ===
Sometimes you simply need to check the result of an expression in the Gretl console, such as 2+2. To do this you should use the <code>eval</code> command like this:
<pre>
? eval 2+2
4
</pre>
Since without the command, gretl raises an error:
<pre>
? 2+2
Parse error at unexpected token '2'
</pre>
But <code>eval</code> is too long to type. You can use an <code>=</code> before the expression (as in a spreasheet) to get the same result as <code>eval</code>:
<pre>
? =2+2
4
</pre>


<code>matrix theta = {0, 0} # initial values for theta</code>


<code>set verbose off</code>
=== Backslash to split lines===
In some cases a line of code could be very long. Take for example the declaration of a matrix:
<pre>
matrix M = {1,2,3;4,5,6;7,8,9;10;11;12;13,14,15;16,17,18}
</pre>
It is difficult to read rows and columns. You can use the symbol <code>\</code> to split the line and improve readability.
<pre>
matrix M = { \
  1,2,3; \
  4,5,6; \
  7,8,9; \
  10,11,12; \
  13,14,15; \
  16,17,18}
</pre>


<code>set max_verbose off</code>


<code>M = BFGSmax(&theta, Rosenbrock(theta) )</code>
=== Execute portions of code ===
You can execute only a portion of code by highlighting it in the ''script editor'' window and running it with ''ctlr+r'' or the ''run'' button.


<code>printf "                      \r"              # destroy the last step message</code>


<code>flush                                          # flush it</code>
=== Custom ''Highlighting style'' ===
To use custom color highlighting in ''script window'' and '' console'' add the xml style file to <code>PATH/gtksourceview/</code>; where <code>PATH</code> is main Gretl directory. You can see it in ''Tools -> Preferences -> General''.


<code>printf "\ntheta: %8.4f \n", theta</code>
After that, go to ''Tools -> Preferences -> Editor'' and select your file name in ''Highlighting style'' drop-down list.
 
Now run the script (push the gears button or Ctrl+R). The successive estimates of x and y will be monitored. Other information can easily be monitored as well, the value of the criterion <code>-(1-x)^2 - 100 * (y - x^2)^2</code> for instance, by simply including it in the <code>printf</code> command in the Rosenbrook function.
__FORCETOC__

Latest revision as of 21:51, 25 February 2023

Step monitor

It is sometimes irritating when a calculation takes very long and nothing appears to happen. In such cases a step monitor may be useful to indicate the state of the calculations. It is a simple gimmick.

Take, as an example, a modification of the Listing 37.1: Finding the minimum of the Rosenbrock function with the BFGSmax routine given in Gretl's user guide. The printf command prints the values of x and y and ends with a carriage return. The command flush induces printing at each step. To simulate a time consuming routine, a delay of .003 has been inserted by giving the command sleep(.003).

Open the the gretl script editor (File → Script files → New script) and paste the following code:

set verbose off
# This defines the function to be maximized
function scalar Rosenbrock( const matrix param "parameters" )
scalar x = param[1]
scalar y = param[2]
printf "x =%7.4f, y =%7.4f \r",x,y            # the information printed at each step
flush                                         # this induces immediate printing
sleep(.003)                                   # this simulates a time-consuming process
return -(1-x)^2 - 100 * (y - x^2)^2
end function

# This invokes the maximization routine
matrix theta = {0, 0}                         # initial values for theta
set max_verbose off
M = BFGSmax(&theta, Rosenbrock(theta) )
printf "                      \r"             # destroy the last step message
flush                                         # flush it
printf "\ntheta: %8.4f \n", theta

Now run the script (push the gears button or Ctrl+R). The successive estimates of x and y will be monitored. Other information can easily be monitored as well, the value of the criterion -(1-x)^2 - 100 * (y - x^2)^2 for instance, by simply including it in the printf command in the Rosenbrook function.


"=" trick for eval

Sometimes you simply need to check the result of an expression in the Gretl console, such as 2+2. To do this you should use the eval command like this:

? eval 2+2
4

Since without the command, gretl raises an error:

? 2+2
Parse error at unexpected token '2'

But eval is too long to type. You can use an = before the expression (as in a spreasheet) to get the same result as eval:

? =2+2
4


Backslash to split lines

In some cases a line of code could be very long. Take for example the declaration of a matrix:

matrix M = {1,2,3;4,5,6;7,8,9;10;11;12;13,14,15;16,17,18}

It is difficult to read rows and columns. You can use the symbol \ to split the line and improve readability.

matrix M = { \
  1,2,3; \
  4,5,6; \
  7,8,9; \
  10,11,12; \
  13,14,15; \
  16,17,18}


Execute portions of code

You can execute only a portion of code by highlighting it in the script editor window and running it with ctlr+r or the run button.


Custom Highlighting style

To use custom color highlighting in script window and console add the xml style file to PATH/gtksourceview/; where PATH is main Gretl directory. You can see it in Tools -> Preferences -> General.

After that, go to Tools -> Preferences -> Editor and select your file name in Highlighting style drop-down list.