Difference between revisions of "Scilab/C4/Loading-and-saving-data-in-Xcos/English"
PoojaMoolya (Talk | contribs) |
PoojaMoolya (Talk | contribs) |
||
Line 204: | Line 204: | ||
Close the '''Graphic''' window. | Close the '''Graphic''' window. | ||
− | | | + | |We can see a straight line with slope 2. |
− | We can see a straight line with slope 2. | + | |
Let’s close the graphic window. | Let’s close the graphic window. |
Revision as of 15:43, 15 September 2021
Title of script: Loading and saving data in Xcos
Author: Rupak Rokade and Utkarsh
Keywords: Xcos,TOWS_c, C_binary, workspace, read, write, data file, scilab
Visual Cue | Narration |
---|---|
Show Slide: Title Slide |
Hello and welcome to the Spoken Tutorial on “ Loading and saving data in Xcos”. |
Show Slide: Learning Objectives |
In this tutorial, we will learn how to:
|
Show Slide: System Requirements |
To record this tutorial, I am using
|
Show Slide: Pre-requisites |
To follow this tutorial, you should have
|
Show Slide: Code Files |
|
Cursor on the Untitled Xcos editing window. |
I have already opened the Xcos windows. We can see two windows named Untitled Xcos and the Palette browser are opened. |
On the Untitled Xcos window, Cursor on Toolbar >> Click on Open file option >> Click on SaveData.xcos >> Click on OK. |
Go to the Untitled Xcos window. Click on the Open File icon on the Toolbar. A window will appear. Go to the Downloads folder and select the file SaveData.xcos. Then click on the OK button. |
Adjust the Window accordingly. |
Let me adjust the window. I have already created this file for demonstration. |
On the SaveData.xcos window, cursor on the SaveData.xcos window. |
This file has a simple Xcos simulation diagram. |
On the SaveData.xcos window, Hover cursor on RAMP block. |
It uses the RAMP block to generate a Ramp signal. |
On the SaveData.xcos window, Hover cursor on CSCOPE block. |
And the CSCOPE block to plot it. Let us see how to record the generated Ramp signal. |
On the SaveData.xcos window, cursor on the SaveData.xcos window |
First we will see how to push the values generated by the RAMP block to workspace. |
On palette browser, click on Sinks >> scroll down >> click on TOWS_c. |
Go to the palette browser window. Click on the Sinks palette. In the right panel, select the TOWS_c block. This is the To Workspace block. |
As per narration | Drag and Drop the To Workspace block to the SaveData.xcos window. |
On the editing window, Double click on the TOWS_c block. |
Double click on the To Workspace block to configure its properties. |
On the Scilab Multiple Values Request Window of TOWS_c block, Double click on the Size of Buffer. Text field to highlight it. |
The size of buffer is by default set to 128. This means that 128 values will be saved in the block . If any more values are passed, the block will overwrite the previous values. |
On the Scilab Multiple Values Request Window of TOWS_c block, Double click on the Variable Name text field to highlight it. |
The Variable Name is the name of the variable to which the values are saved. By default it is set to A. |
On the Scilab Multiple Values Request Window of TOWS_c block, Double click on the Inherit Text field to highlight it. Click on the OK button at the bottom. |
Inherit is used to decide whether to take the event input or not. By default Inherit is set to 0 which means it has to take event input. Click on the OK button to close this window. |
On SaveData.xcos Window, Connect as per narration. |
Let us make the connections. Select the black input port of the To Workspace block. Connect it to the line joining the RAMP and the CSCOPE block. |
On SaveData.xcos Window, Connect as per narration. |
Next, Select the red input port of the TOWS_c block. Connect it to the line joining the CLOCK_c and the CSCOPE block. Our file is ready for simulation. |
On the SaveData.xcos window, Click on Start button on the toolbar >> click on OK button on the Warning message. |
Let us run this simulation by clicking on the Start Button on the toolbar. A Warning message will appear. Ignore the message and click on the OK button. |
On the Graphic window, Hover cursor on the graph. Close the Graphic window. |
We can see a straight line with slope 2.
Let’s close the graphic window. |
Switch to workspace. |
Now let us look at the values. Switch to the workspace. |
On the workspace, Type A >> press Enter. |
Let us execute the variable A. Type A on the workspace and press Enter. |
On the workspace window, Highlight variable A. Highlight values. Highlight time. |
A is a special variable. We can either extract values from A or we can extract times from A. Let us look at the values. |
On the workspace window, Type A.values >> Press Enter. |
Type A.values on the workspace. Press Enter. |
On the workspace, Scroll up to show all the values and Highlight them. |
These are all the values from the graph and are now saved in the workspace. |
On the workspace, hover cursor on a new line on the workspace. |
Now we need to save these values in a file so that we can share them. |
Switch to SaveData.xcos window. | Switch back to the SaveData.xcos window. |
On the palette browser, Click on Sinkss >> Click on WRITEC_f block. |
To save these values, we will use the WRITEC_f block. Go to the palette browser window. Click on the Sinks palette. Click on the WRITEC_f block in the right panel. This is the Write to C binary file block. |
As per narration | Drag and Drop the block on the SaveData.xcos window. |
On the SaveData.xcos window, Double click on WRITEC_f block. |
Double click on the WRITEC_f block to configure its properties. |
On the Scilab Multiple Values Request Window of WRITEC_f block, Double click on the Input Size Text field to highlight it. |
Input Size is the size of our input values. |
On the Scilab Multiple Values Request Window of WRITEC_f block, Double click on the Output File Name Text field to highlight it >> Change it to ‘data’ |
Output File is the name of our output file. I will name the output file as ‘ data ‘. If no file path is entered, the file will be saved in the Current working directory. |
On the Scilab Multiple Values Request Window of WRITEC_f block, Double click on the Output Format Text field to highlight it >> Change it to ‘ d ’ |
Output Format is the format of the output file. By default it is ‘ c ‘. That is, by default, values are saved as integers. But, I want to save the values as double. So, I will change it to ‘d’. |
On the Scilab Multiple Values Request Window of WRITEC_f block, Double click on the Buffer Size Text field to highlight it. |
Buffer Size is the size of the buffer. |
On SaveData.xcos Window, Connect as per narration. |
Let us make the connections. Select the black input port of the WRITEC_f block. Connect it to the line joining the RAMP and the CSCOPE block. |
On SaveData.xcos Window, Connect as per narration. |
Next, Select the red input port of the WRITEC_f block. Connect it to the line joining the CLOCK_c and the CSCOPE block. Our file is ready for simulation. |
On the SaveData.xcos window, Click on Start button on the toolbar >> click on OK button on the Warning message. |
Let's run the simulation again by clicking on the Start Button on the toolbar. A Warning message will appear. Ignore the message and click on the OK button. |
On the Graphic window, Hover cursor on the graph. Close the Graphic window. |
We can see the graph. Let’s close the graphic window. |
As per narration. | Let's go to the location where we have saved the data file. |
On file manager window, Click on the data file once. |
We can see a file named ‘ data ‘ . Since it is a binary encoded file we cannot simply read it. We would need a special block to read this file. |
Switch back to SaveData.xcos file | Switch back to the SaveData.xcos window. |
On the SaveData.xcos window, Cursor on Toolbar >> Click on Open file option >> Click on LoadData.xcos >> Click on OK |
Let us open the file LoadData.xcos Click on the Open File icon on the Toolbar. A window will appear. Go to Downloads Folder and select the file LoadData.xcos. Then click on the OK button. We will use this file to read our data file. |
Adjust the Window accordingly. | Let me adjust the window. |
On the palette browser, Click on Sources >> Click on READC_f block. |
We will use the READC_f block to read our values. Go to the palette browser window. Click on the Sources palette. Click on READC_f Block in the right panel. This is the Read from C Binary block. |
As per narration | Drag and Drop the block on the LoadData.xcos window. |
On the LoadData.xcos window, Double click on READC_f block.. |
Double click on the READC_f block to configure its properties. |
On the Scilab Multiple Values Request Window of READC_f block, Double click on the Input File Name Text field to highlight it. >> Change it to data |
Input file name is the name and the path of your data file. Since my data file was named data I will change it to data. |
On the Scilab Multiple Values Request Window of READC_f block, Double click on the Input Format Text field to highlight it >> Change it to d. |
Input format is the format of the data file. Since the format for my data file is double , I will change it to d. |
On the Scilab Multiple Values Request Window of READC_f block, Double click on the Buffer Size Text field to highlight it. Click the OK button . |
This is the buffer size. Let’s close this window by clicking on the OK button. |
On LoadData.xcos Window, Connect as per narration. |
Let us make the connections. Select the black output port of the READC_f block. Connect it to the black input port of the CSCOPE block. |
On LoadData.xcos Window, Connect as per narration. |
Lastly, Select the red input port of the READC_f block. Connect it to the line joining the CLOCK_C & the CSCOPE block. |
On the LoadData.xcos window, Click on Start button on the toolbar |
Let’s run this simulation again by clicking on the Start Button on the toolbar. |
On the Graphic Window, Hover Cursor on the Graph. |
We have a similar graph to the one we had earlier without using the RAMP block. This is because we have loaded the values from the data file. |
Show Slide: Summary |
This brings us to the end of this tutorial. Let us summarise. In this tutorial, we have learnt to:
|
Show Slide: Assignment |
As an assignment, Create two Xcos simulation files:
|
Show Slide: About Spoken Tutorial project |
The video at the following link summarises the Spoken Tutorial project. Please download and watch it |
Show Slide: Spoken Tutorial Workshops |
The Spoken Tutorial Project team conducts workshops and gives certificates. For more details, please write to us. |
Show Slide: Answers for THIS Spoken Tutorial |
Please post your timed queries in this forum. |
Show Slide: FOSSEE Forum |
Please post your general and technical queries on Scilab in this forum. |
Show Slide: Textbook Companion project. |
The FOSSEE team coordinates the Textbook Companion project. We give Certificates and Honorarium to the contributors. For more details, please visit this website. |
Show Slide: Lab Migration |
The FOSSEE team coordinates the Lab Migration project. For more details, please visit this website. |
Show Slide: Acknowledgement | Spoken Tutorial and FOSSEE projects are funded by the Ministry of Education, Government of India. |
Show Slide: Thank you |
This is Utkarsh Anand, FOSSEE intern 2021, IIT Bombay signing off. Thanks for joining. |