Difference between revisions of "OpenModelica/C2/Array-Functions-and-Operations/English"

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Revision as of 17:46, 21 March 2016

Visual Cue Narration
Slide:

Title Slide

Welcome to the Spoken Tutorial on Array Functions and Operations.
Slide:

Learning Objectives

In this tutorial, we are going to learn:
  • how to use OMShell
  • how to use array construction functions.
  • how to perform arithmetic operations on vectors and matrices.
  • how to use array conversion functions.
Slide:

System Requirements

To record this tutorial, I am using
  • OpenModelica 1.9.2
  • Ubuntu Operating System version 14.04 and
  • gedit

Windows users may use any text editor like Notepad instead of gedit.

Slide:

Prerequisites

To understand and practice this tutorial, you need
  • knowledge of function and array declaration in Modelica.
  • Prerequisite tutorials are mentioned on our website.
  • Please go through them.
Slide:

OMShell

let us learn more about OMShell now.

OMShell is an interactive command line tool.

It is a part of OpenModelica.

OpenModelica compiler can be invoked using commands typed in OMShell.

It can be used for loading classes and simulating them.

Functions can also be called in OMShell.

We shall now use classes named polynomialEvaluatorUsingVectors and functionTester to demonstrate OMShell.

These classes were discussed in previous tutorials.

For more information on these classes, please watch the prerequisite tutorials.

All the commands to be used in this tutorial are provided in a file named OMShell-commands.txt.

You may locate and download all the code files available on our website.

Please save all these code files in one directory for easy access.

Click on Search icon in Icon Tray. Now let me launch OMShell.

To open OMShell on Ubuntu Operating System,

Click on Dash Home icon at top left in the launcher.

Type OMShell in the address box. Type OMShell in the address box.

Click on OMShell icon.

In Windows, you may find the icon in Start menu.

/* OMShell */ Now let us learn a few useful commands.

Firstly, go to the location where you saved the text file named OMShell-commands.txt and open it.

Note that this file has all the commands to be used in this tutorial.

Hence, you may refer to this file whenever in doubt.

Now let me switch to OMShell.

Type // cd() // Type cd open and close parentheses.

Press Enter to display the result produced on execution of the command.

This prints the path to current directory.
Type // cd(“path”) // Now let us change current directory to the location where you have saved the code files.

Let me change directory on my system.

Type cd(open and close parentheses) (within double quotes), specify the path.

Press Enter.

Note that a Windows path uses forward slash unlike the backward slash used in Ubuntu.

Windows users need to be cautious of this fact.

Type // loadFile(“polynomialEvaluatorUsingVectors.mo”) // Now let us load polynomialEvaluatorUsingVectors function.

Type loadFile (within parentheses) (within double quotes) polynomialEvaluatorUsingVectors.mo.

Note that F is upper-case in loadFile() command.

This command can be used to load class or model files with a file extension of .mo.

Now press Enter.

// true // If the file is found, OMShell returns true.
Type // polynomialEvaluatorUsingVectors(10) // Now let us call this function interactively.

Type polynomialEvaluatorUsingVectors (with an argument of) 10.

Press Enter.

This command takes an input argument of 10 units and displays the result.
Type // loadFile(“functionTester.mo”) // Let me now load functionTester class.

Type loadFile (open and close parentheses) (within double quotes) functionTester.mo.

Press Enter.

Type // simulate(functionTester,startTime=0,stopTime=1) // Now let us simulate functionTester class.

Type simulate (within parentheses) functionTester (comma) startTime (equals) 0 stopTime (equals) 1.

Press Enter.

The simulation is now complete.

Let us plot variable z from functionTester class.

Type // plot({z}) // Type plot (within parentheses) (within curly braces) z and press Enter.

This command generates a plot of variable z vs time.

Now let me go back to the slides.
Slide:

Array Construction Functions

  • fill()
  • zeros()
  • identity()
Array construction functions are used to construct arrays of given size.

Now let us take a look at a few array construction functions.

We will also practice them using OMShell.

fill() is function used to create an array with all the elements same.

The syntax for fill is as shown.

First argument represents the number which fills the array.

Remaining arguments represent the size of each dimension.

zeros() is a function used to create an array filled with zeros.

Syntax for zeros() function is as shown.

Arguments represent the size of each dimension of the array.

identity() function creates an identity matrix.

It takes one argument that represents the size of both dimensions.

Now let me demonstrate these functions using OMShell.

Let me go back to OMShell.

/* OMShell */

Type // fill(5,2,2) //

Type fill(within parentheses) 5 (comma) 2 (comma) 2.

This command generates a two by two matrix with all its elements be in 5.

The first arguments represents the element to be filled within the array.

2 represents the size of first dimension.

and the third argument 2, represents the size of second dimension.

Now press Enter.

The result is as expected.

Elements with one set of curly braces represent a row.

Hence this matrix has two rows and two columns.

Type // zeros(2,2) // Now let us use zeros() function to create a (two by two) matrix with all its elements zero.

Type zeros (within parentheses) 2 (comma) 2 and press Enter.

The result is as expected.

Type // identity(3) // Let us now try identity function.

Type identity(3).

This creates an identity matrix which is 3 (by) 3 in its size.

We can also perform arithmetic operations and use assignment statements in OMShell.
Type // a:=[1,2;3,4] // Let us create two matrices and perform arithmetic operations on them.

Type a (colon) (equals) (within square brackets) 1 (comma) 2 (semicolon) 3 (comma) 4.

Comma is used to separate elements in a row whereas semi-colon is used to separate rows themselves.

Now press Enter.

Type // b:=identity(2) // Type b (colon) (equals) identity (2).

This generates a 2 by 2 identity matrix.

Type // a + b // Now let us performs arithmetic operations on a and b.

Type a (plus) b and press Enter.

This performs matrix addition.

Type // a * b // Type a (asterisk) b.

This performs matrix multiplication.

Press Enter.

Type // a .* b // Type a (dot) (asterisk) b and press Enter.

This performs element-wise multiplication of the two matrices.

Note that it is not necessary to define data-types of variables used in OMShell.
Now let me switch back to the slides.
Slide:

Reduction Functions

Reduction functions take array as input and return scalar as output.

min() is a function which returns the smallest value in an array.

Similarly, max() function returns the largest value in an array.

sum() returns the sum of all elements

and product() returns the product of all elements.

Let me switch to OMShell to demonstrate these functions.
x = [3,4;5,6] Let me create a new matrix.

x (colon)(equals) (within square brackets) 3 (comma) 4 (semicolon) 5 (comma) 6.

Type // min(x) // Type min (x) to obtain the minimum value of x.
Type // max(x) // Type max (x) to obtain the largest value in array x..
Type // sum(x) // Similarly type sum (x) to obtain the sum of all elements.
Type // product(x) // and product (x) to obtain the product of individual elements min array x.
Let me go back to the slides once again.
Slide:

Miscellaneous functions

Let us now discuss various other functions that take an array as input.

abs() is a function which returns an array with the absolute values of all its elements.

size() returns a vector with the size of each dimension.

ndims() returns the number of dimensions in an array.

This brings us to the end of this tutorial.

In this tutorial, we used OMShell to interactively demonstrate array functions.

These functions are part of Modelica language specification.

Hence, they may be used while writing classes in OMEdit as well.

Slide:

Assignment

As an assignment, apply abs(), ndims() and size() functions to an array.

Secondly, we have used a two-dimensional array or matrix as an argument to most of the functions.

As an assignment, implement all these functions with three dimensional arrays.

Slide:

About the Spoken Tutorial project

Watch the video available at the following link:

http://spoken-tutorial.org /What\_is\_a\_Spoken\_Tutorial

Its summarises the Spoken Tutorial project.

Slide:

Spoken Tutorial Workshops

We conducts workshops using spoken tutorials.

Give certificates.

Please contact us.

Slide:

Forum to answer questions

If you have questions in this spoken tutorial, please visit the webpage mentioned.
Slide:

Textbook Companion Project

We coordinate coding of solved examples of popular books.

Please contact us.

Slide:

Lab Migration Project

We help migrate commercial simulator labs to OpenModelica.
Slide:

Acknowledgements

Spoken Tutorial Project is funded by NMEICT, MHRD Government of India.
Slide:

Thanks

We thank the development team of OpenModelica for their support.

Thank you.

Contributors and Content Editors

Kaushik Datta, Nancyvarkey