- Squish Home
- Squish for Tk, only for Unix
- about €2500
- Qt3. Squish for Tk will not work with Qt4. Make sure you install all Qt3 development packages. On a Ubuntu OS, this (most likely) involve: libqt3-headers, libqt3-mt, libqt3-mt-dev, qt3-apps-dev, qt3-assistant, qt3-designer, qt3-dev-tools, qt3-linguist, qt3-qtconfig, etc.
- Tcl/Tk 8.4 or 8.5
- Download a Squish for Tk evaluation license
-rwxr--r-- 1 barre barre 6587889 2008-09-04 13:08 squish-3.4.1-eval-tk-src.tar.gz* -rwxr--r-- 1 barre barre 19 2008-09-04 13:08 squish-3-license*
- Reference: Squish Installation
- Unpack the archive
barre@tetsuo:~/build$ tar -xzf /home/barre/tmp/squish/squish-3.4.1-eval-tk-src.tar.gz
- Configure Squish
barre@tetsuo:~/build$ cd squish-3.4.1-eval-tk-src barre@tetsuo:~/build/squish-3.4.1-eval-tk-src$ ./configure "--with-qtdir=/usr/share/qt3" "--with-tclconfig=/opt/tcltk8.5.2/lib/tclConfig.sh" "--with-tkconfig=/opt/tcltk8.5.2/lib/tkConfig.sh"
Note that the configure script may not find your Qt3 distribution correctly: use --with-qtdir to point to the appropriate directory. Use --with-tclconfig and --with-tkconfig to point to your own Tcl/Tk distribution, if any (here /opt/tcltk8.5.2)
- Enter your license key (found in squish-3-license)
Configuring Squish. For license information please read the LICENSE file. By configuring and building Squish you are accepting the terms of this license. Enter license key: ***-*****-*****-*** Checking for C++ compiler ......... g++ Checking for g++'s version ......... 4 [...] Done with configuring. Full log in config.log. Now type './build'. * Build <pre> barre@tetsuo:~/build/squish-3.4.1-eval-tk-src$ ./build
In this section, we will exercise KWWidgets' KWCallbacksExample example.
- Build KWWidgets examples; set KWWidgets_BUILD_EXAMPLES to ON, make sure the ./bin/KWCallbacksExample example has been built and is working properly. It should display a simple window with a single slider inside of it. Fancy. When the application exits, make sure you select the "Do not show this dialog anymore" checkbutton in the confirmation dialog.
Create a new Test Suite
- If you are new to Squish you may want to read: Squish Concepts and Creating the First Test. The Squish for Tk documentation is located offline in your build directory at squish-3.4.1-eval-tk-src/doc/book/index.html, or online at http://www.froglogic.com/download/book/.
- Start the Squish IDE
- Create a new test
- Select "Create New Test Suite" at the Welcome page, or "File|New Test Suite..." in the main menu bar.
- Enter a Suite Name (say kwcallbacksexample). Select where the test suite and its files shall be saved (say ~/tmp/kww_test/). Hit "Next".
- Specify which toolkit the application is using. KWWidgets uses Tcl/Tk under the hood, therefore select the Tk radiobutton. Hit "Next". NOTE: this page will *only* show up if Squish was built to support *several* toolkits; if only one toolkit is available (hopefully, Tk), this page will not be displayed and the appropriate toolkit will be picked automatically.
- Select Tcl as the scripting language. Hit "Next".
- Select the Application Under Test (AUT): pick the the ./bin/KWCallbacksExample application found in your KWWidgets build tree. Note that even though we are using Squish for Tk, we are actually exercising a KWWidgets *binary application*, not a Tcl/Tk *script*. Hit "Finish".
Create a new Test Case
- Select "Create New Test Case", or "File|New Test Case..." in the main menu bar or right-click on suite_kwcallbacksexample in the left tree and select "New Test Case...". Name it, say, Test1. This should create a tst_Test1 case in the left tree and a test.tcl file in your test suite directory. Note that a test suite can store multiple test cases at a time (which would be executed one after the other).
Record the Test Case
- Right-click on tst_Test1 and select "Record...", or select "Test Suite|Record..." in the main menu bar. Accept the defaults and click "Record". This should launch KWCallbacksExample. Note the "Squish Control Bar" window displaying "Recording test case 'tst_Test1'".
- Move the slider in the KWCallbacksExample window from 10.0 to a different value, say, 50.0. Note a new (and lengthy) entry in the "Squish Control Bar" window: "scrollTo KWCallbacksExample.vtkKWWindow0.vtkKWFrame3.[...].vtkKWMyWidget0.vtkKWScale0 50000".
- Exit "Recording" mode by closing or exiting the KWCallbacksExample window, or hitting the "End Recording" button in the "Squish Control Bar" window.
- Back to the Squish IDE, the script test,tcl has been updated to reflect your interaction with the AUT:
- waitForObject makes sure a widget is ready and has been mapped on-screen (here, our scale widget). The widget name itself is quite long as it reflects the hierarchy of parent-child widgets in a typical KWWidgets application. The name of each child in this chain is created at run-time by concatenating the name of the C++ class for that widget to a unique ID among its siblings. The last child in this specific example should be vtkKWScale0, which is the de-facto KWWidgets C++ class used to wrap the Tcl/Tk scale widget we just interacted with.
- invoke is a Squish command that will act on a widget. Its first parameter, scrollTo , will scroll the scale slider to its new value, 50.0 (displayed as 50000).
- snooze 12.5; snooze statements force the script to wait for N seconds. These calls are generated to ensure that the script always runs with the same time-delays as when it was recorded. They are added because in some cases an action may take some time to complete and the application may not be ready for the following action in time.
- invoke closeWindow is another Squish command that will close a specific window. It is not clear at this point what Squish is closing; one would have expected :KWCallbacksExample.vtkKWWindow0, but this might be the first widget that is being deleted in the whole application instead. In any cases, this line can be ignored and deleted; the application will still exit properly. Let's remove (or shorten) the snooze statement as well.
Execute the Test Case
- Right-click on tst_Test1 and select "Execute", or hit F5, or select "Test Suite|Execute" in the main menu bar. This should run the whole test, move the slider to 50.0 automatically, and bring you back to the Squish IDE. Note the contents of the "Test Log" tab in the "Output" panel at the bottom:
START Fri Nov 7 17:11:24 2008 Start 'tst_Test1' (Passes: 0, Fails: 0, Fatals: 0, Errors: 0, Warnings: 0) END Fri Nov 7 17:11:25 2008 End 'tst_Test1' End of test 'tst_Test1'
Insert a Verification Point
Verification points (VP) can (and should) be added to make sure the application behaved correctly, i.e. that once executed by Squish, we end up in the state we expected. There are multiple ways to add a VP; in this case, we will insert a breakpoint where the verification should take place, execute the testing script again until it "breaks", and insert the VP itself at this point; we will then inspect (spy on) the AUT's widgets to choose the widget we want to check for validity.
- In the test.tcl window, insert a breakpoint on the line right *after* the invoke scrollTo command line, say on the snooze command line for example. Click in the gray column immediately to the left of the line, where its number is displayed, to insert a breakpoint.
- Execute the test case. Squish should execute the test, then halt it at the breakpoint; the line in which the debugger breaks is highlighted in yellow.
- Start the Squish Spy on the currently running but halted AUT. This is achieved by choosing "Spy|Spy AUT" in the menu.
- Below the editor two new views appear. To the left, it shows the object hierarchy and to the right the property tab. When the property tab is active, it shows the properties of the current object. Each object and property has a check box. By checking a property, a verification point for this property is created.
- Rename the Verification Point (the entry above the object hierarchy), or leave it to VP1.
- Select the vtkKWScale0 widget in the object hierarchy:
- by opening the hierarchy tree until you reach vtkKWScale0 (check the test.tcl script to find the proper parent-child path), or
- by selecting the scale widget *directly* in the AUT: invoke "Spy|Pick Object" in the menu, wait for Squish to switch to the AUT GUI then click directly on the scale widget.
- Select the getvalue property checkbutton in the property tab: it should reflect the *current* value of the scale widget (here, 50.0). This is the property we want to check for the test to pass.
- Insert the Verification Point in the test.tcl script by clicking on the checkmark icon in the toolbar next to the VP name. Note that the tree in the "Test Suite" panel on the left should reflect the new VP as well.
- Stop the script by choosing "Test Suite|Stop" in the menu. You should now see a test vp command in the test.tcl window. This is the command that will make sure the conditions created for this verification point are met and that the test is passed.
- Remove the breakpoint (by clicking on it).
Validate the Test Case
- Right-click on tst_Test1 and select "Execute", or hit F5, or select "Test Suite|Execute" in the main menu bar. This should run the whole test, move the slider to 50.0 automatically, check the Verification Points and bring you back to the Squish IDE.
- After the test run completed, you see the result of the verification point in the test log view at the bottom of the Squish IDE. This is a detailed report of the test run and would also contain occurring failures, errors, etc. If you click on a test log item, the Squish IDE highlights the script line which generated the test result.
- The Verification Point should pass:
* PASS Thu Nov 6 14:58:41 2008/home/barre/tmp/kww_test/suite_kwcallbacksexample/tst_Test1/test.tcl:5: VP1: Object property comparison of ':KWCallbacksExample.vtkKWWindow0.vtkKWFrame3.[...].vtkKWMyWidget0.vtkKWScale0.getvalue' passed
- You can ignore the failure on invoke closeWindow for now :)
- By implementing custom report generators it is possible to process test results in many different ways, for example to store them in a data base, or to output them as HTML files. The default report generator simply prints the results to stdout, or when being used in the Squish IDE they are displayed in the test log view. You can also save the test results in the Squish IDE as XML by right clicking on the test results and choosing Save Results As.