Yes, I have been WinRunner for creating automates scripts for GUI, functional
and regression testing of the AUT.
2. Explain WinRunner testing process?
WinRunner testing process involves six main stages: i. Create GUI Map File so
that WinRunner can recognize the GUI objects in the application being tested
ii. Create test scripts by recording, programming, or a combination of both.
While recording.
3. What is contained in the GUI map?
WinRunner stores information it learns about a window or object in a GUI Map.
When WinRunner runs a test, it uses the GUI map to locate objects. It reads
an object’s description in the GUI map and then looks for an object with the
same properties.
4. How does WinRunner recognize objects on the application?
WinRunner uses the GUI Map file to recognize objects on the application. When
WinRunner runs a test, it uses the GUI map to locate objects. It reads an
object’s description in the GUI map and then looks for an object with the
same properties.
5. Have you created test scripts and what is contained in the test
scripts?
Yes I have created test scripts. It contains the statement in Mercury
Interactive’s Test Script Language (TSL). These statements appear as a test
script in a test window. You can then enhance your recorded test script,
either by typing in.
6. How does WinRunner evaluates test results?
Following each test run, WinRunner displays the results in a report. The
report details all the major events that occurred during the run, such as
checkpoints, error messages, system messages, or user messages. If mismatches
are detected at checkpoints.
7. Have you performed debugging of the scripts?
Yes, I have performed debugging of scripts. We can debug the script by
executing the script in the debug mode. We can also debug script using the
Step, Step Into, Step out functionalities provided by the WinRunner.
8. How do you run your test scripts?
We run tests in Verify mode to test your application. Each time WinRunner
encounters a checkpoint in the test script, it compares the current data of
the application being tested to the expected data captured earlier. If any
mismatches are found.
9. How do you analyze results and report the defects?
Following each test run, WinRunner displays the results in a report. The
report details all the major events that occurred during the run, such as
checkpoints, error messages, system messages, or user messages. If mismatches
are detected at checkpoints.
10. What is the use of Test Director software?
TestDirector is Mercury Interactive’s software test management tool. It helps
quality assurance personnel plan and organize the testing process. With
TestDirector you can create a database of manual and automated tests, build
test cycles.
11. How you integrated your automated scripts from TestDirector?
When you work with WinRunner, you can choose to save your tests directly to
your TestDirector database or while creating a test case in the TestDirector
we can specify whether the script in automated or manual. And if it is
automated script then
12. What are the different modes of recording?
There are two type of recording in WinRunner. i. Context Sensitive recording
records the operations you perform on your application by identifying
Graphical User Interface (GUI) objects. ii. Analog recording records keyboard
input, mouse clicks, and the precise x- and y-coordinates traveled by the
mouse pointer across the screen.
13. What is the purpose of loading WinRunner Add-Ins?
Add-Ins are used in WinRunner to load functions specific to the particular
add-in to the memory. While creating a script only those functions in the
addin selected will be listed in the function generator and while executing
the script only those functions in the loaded add-in will be executed else
WinRunner will give an error message saying it does not recognize the
function.
14. What are the reasons that WinRunner fails to identify an object on the
GUI?
WinRunner fails to identify an object in a GUI due to various reasons. i. The
object is not a standard windows object. ii. If the browser used is not
compatible with the WinRunner version, GUI Map Editor will not be able to
learn any of the objects displayed in the browser window.
15. What do you mean by the logical name of the object.
An object’s logical name is determined by its class. In most cases, the
logical name is the label that appears on an object.
16. If the object does not have a name then what will be the logical name?
If the object does not have a name then the logical name could be the
attached text.
17. What is the different between GUI map and GUI map files?
The GUI map is actually the sum of one or more GUI map files. There are two
modes for organizing GUI map files.
i. Global GUI Map file: a single GUI Map file for the entire application
ii. GUI Map File per Test: WinRunner automatically creates a GUI Map file for
each test created.
GUI Map file is a file which contains the windows and the objects learned by
the WinRunner with its logical name and their physical description.
18. How do you view the contents of the GUI map?
GUI Map editor displays the content of a GUI Map. We can invoke GUI Map
Editor from the Tools Menu in WinRunner. The GUI Map Editor displays the
various GUI Map files created and the windows and objects learned in to them
with their logical name and physical description.
19. When you create GUI map do you record all the objects of specific
objects?
If we are learning a window then WinRunner automatically learns all the
objects in the window else we will we identifying those object, which are to
be learned in a window, since we will be working with only those objects
while creating scripts.
20. What is the purpose of set_window command?
Set_Window command sets the focus to the specified window. We use this
command to set the focus to the required window before executing tests on a
particular window.
Syntax: set_window(, time);
The logical name is the logical name of the window and time is the time the
execution has to wait till it gets the given window into focus.
21. How do you load GUI map?
We can load a GUI Map by using the GUI_load command. Syntax: GUI_load();
22. What is the disadvantage of loading the GUI maps through start up
scripts?
If we are using a single GUI Map file for the entire AUT then the memory used
by the GUI Map may be much high. If there is any change in the object being
learned then WinRunner will not be able to recognize the object, as it is not
in the GUI Map file loaded in the memory. So we will have to learn the object
again and update the GUI File and reload it.
23. How do you unload the GUI map?
We can use GUI_close to unload a specific GUI Map file or else we call use
GUI_close_all command to unload all the GUI Map files loaded in the memory.
Syntax: GUI_close(); or GUI_close_all;
24. What actually happens when you load GUI map?
When we load a GUI Map file, the information about the windows and the
objects with their logical names and physical description are loaded into
memory. So when the WinRunner executes a script on a particular window, it
can identify the objects using this information loaded in the memory.
25. What is the purpose of the temp GUI map file?
While recording a script, WinRunner learns objects and windows by itself.
This is actually stored into the temporary GUI Map file. We can specify
whether we have to load this temporary GUI Map file should be loaded each
time in the General Options.
26. What is the extension of gui map file?
The extension for a GUI Map file is “.gui”.
27. How do you find an object in an GUI map.
The GUI Map Editor is been provided with a Find and Show Buttons. i. To find
a particular object in the GUI Map file in the application, select the object
and click the Show window. This blinks the selected object. ii. To find a
particular object in a GUI Map file click the Find button, which gives the
option to select the object. When the object is selected, if the object has been
learned to the GUI Map file it will be focused in the GUI Map file.
28. What different actions are performed by find and show button?
To find a particular object in the GUI Map file in the application, select
the object and click the Show window. This blinks the selected object. To
find a particular object in a GUI Map file click the Find button, which gives
the option to select the object. When the object is selected, if the object
has been learned to the GUI Map file it will be focused in the GUI Map file.
29. How do you identify which files are loaded in the GUI map?
The GUI Map Editor has a drop down “GUI File” displaying all the GUI Map
files loaded into the memory.
30. How do you modify the logical name or the physical description of the
objects in GUI map?
You can modify the logical name or the physical description of an object in a
GUI map file using the GUI Map Editor.
31. When do you feel you need to modify the logical name?
Changing the logical name of an object is useful when the assigned logical
name is not sufficiently descriptive or is too long.
32. When it is appropriate to change physical description?
Changing the physical description is necessary when the property value of an
object changes.
33. How WinRunner handles varying window labels?
We can handle varying window labels using regular expressions. WinRunner uses
two “hidden” properties in order to use regular expression in an object’s
physical description. These properties are regexp_label and regexp_MSW_class.
34. What is the purpose of regexp_label property and regexp_MSW_class
property?
The regexp_label property is used for windows only. It operates “behind the
scenes” to insert a regular expression into a window’s label description.
The regexp_MSW_class property inserts a regular expression into an object’s
MSW_class. It is obligatory for all types of windows and for the object class
object.
35. How do you suppress a regular expression?
We can suppress the regular expression of a window by replacing the
regexp_label property with label property.
36. How do you copy and move objects between different GUI map files?
We can copy and move objects between different GUI Map files using the GUI
Map Editor. The steps to be followed are:
i. Choose Tools > GUI Map Editor to open the GUI Map Editor.
ii. Choose View > GUI Files.
iii. Click Expand in the GUI Map Editor. The dialog box expands to display
two GUI map files simultaneously.
iv. View a different GUI map file on each side of the dialog box by clicking
the file names in the GUI File lists.
v. In one file, select the objects you want to copy or move. Use the Shift
key and/or Control key to select multiple objects. To select all objects in a
GUI map file, choose Edit > Select All.
vi. Click Copy or Move.
vii. To restore the GUI Map Editor to its original size, click Collapse.
37. How do you select multiple objects during merging the files?
Use the Shift key and/or Control key to select multiple objects. To select
all objects in a GUI map file, choose Edit > Select All.
38. How do you clear a GUI map files?
We can clear a GUI Map file using the “Clear All” option in the GUI Map
Editor.
39. How do you filter the objects in the GUI map?
GUI Map Editor has a Filter option. This provides for filtering with 3
different types of options.
i. Logical name displays only objects with the specified logical name.
ii. Physical description displays only objects matching the specified
physical description. Use any substring belonging to the physical description.
iii. Class displays only objects of the specified class, such as all the push
buttons.
40. How do you configure GUI map?
When WinRunner learns the description of a GUI object, it does not learn all
its properties. Instead, it learns the minimum number of properties to
provide a unique identification of the object.
Many applications also contain custom GUI objects. A custom object is any
object not belonging to one of the standard classes used by WinRunner. These
objects are therefore assigned to the generic “object” class. When WinRunner
records an operation on a custom object, it generates obj_mouse_ statements
in the test script.
If a custom object is similar to a standard object, you can map it to one of
the standard classes. You can also configure the properties WinRunner uses to
identify a custom object during Context Sensitive testing. The mapping and
the configuration you set are valid only for the current WinRunner session.
To make the mapping and the configuration permanent, you must add
configuration statements to your startup test script.
41. What is the purpose of GUI map configuration?
GUI Map configuration is used to map a custom object to a standard object.
42. How do you make the configuration and mappings permanent?
The mapping and the configuration you set are valid only for the current
WinRunner session. To make the mapping and the configuration permanent, you
must add configuration statements to your startup test script.
43. What is the purpose of GUI spy?
Using the GUI Spy, you can view the properties of any GUI object on your
desktop. You use the Spy pointer to point to an object, and the GUI Spy
displays the properties and their values in the GUI Spy dialog box. You can
choose to view all the properties of an object, or only the selected set of
properties that WinRunner learns.
44. What is the purpose of obligatory and optional properties of the
objects?
For each class, WinRunner learns a set of default properties. Each default
property is classified “obligatory” or “optional”.
i. An obligatory property is always learned (if it exists).
ii. An optional property is used only if the obligatory properties do not
provide unique identification of an object. These optional properties are
stored in a list. WinRunner selects the minimum number of properties from
this list that are necessary to identify the object. It begins with the first
property in the list, and continues, if necessary, to add properties to the
description until it obtains unique identification for the object.
45. When the optional properties are learned?
An optional property is used only if the obligatory properties do not provide
unique identification of an object.
46. What is the purpose of location indicator and index indicator in GUI
map configuration?
In cases where the obligatory and optional properties do not uniquely
identify an object, WinRunner uses a selector to differentiate between them.
Two types of selectors are available: i. A location selector uses the spatial
position of objects.
47. How do you handle custom objects?
A custom object is any GUI object not belonging to one of the standard
classes used by WinRunner. WinRunner learns such objects under the generic
“object” class. WinRunner records operations on custom objects using
obj_mouse_ statements.
48. What is the name of custom class in WinRunner and what methods it
applies on the custom objects?
WinRunner learns custom class objects under the generic “object” class.
WinRunner records operations on custom objects using obj_ statements.
49. In a situation when obligatory and optional both the properties cannot
uniquely identify an object what method WinRunner applies?
In cases where the obligatory and optional properties do not uniquely
identify an object, WinRunner uses a selector to differentiate between them.
Two types of selectors are available: i. A location selector uses the spatial
position of objects.
50. What is the purpose of different record methods 1) Record 2)Pass up 3) As Object 4) Ignore.
a. Record instructs WinRunner to record all operations performed on a GUI
object. This is the default record method for all classes. (The only
exception is the static class (static text), for which the default is Pass
Up.)
b. Pass Up instructs WinRunner to record an operation performed on this class
as an operation performed on the element containing the object. Usually this
element is a window, and the operation is recorded as win_mouse_click.
c. As Object instructs WinRunner to record all operations performed on a GUI
object as though its class were “object” class.
d. Ignore instructs WinRunner to disregard all operations performed on the
class.
51. How do you find out which is the start up file in WinRunner?
The test script name in the Startup Test box in the Environment tab in the
General Options dialog box is the start up file in WinRunner.
52. What are the virtual objects and how do you learn them?
Applications may contain bitmaps that look and behave like GUI objects.
WinRunner records operations on these bitmaps using win_mouse_click
statements. By defining a bitmap as a virtual object, you can instruct
WinRunner to treat it like a GUI object such as a push button, when you
record and run tests. b. Using the Virtual Object wizard, you can assign a
bitmap to a standard object class, define the coordinates of that object, and
assign it a logical name. To define a virtual object using the Virtual Object
wizard:
i. Choose Tools > Virtual Object Wizard. The Virtual Object wizard opens.
Click Next.
ii. In the Class list, select a class for the new virtual object. If rows
that are displayed in the window. For a table class, select the number of
visible rows and columns. Click Next.
iii. Click Mark Object. Use the crosshairs pointer to select the area of the
virtual object. You can use the arrow keys to make precise adjustments to the
area you define with the crosshairs. Press Enter or click the right mouse
button to display the virtual object’s coordinates in the wizard. If the
object marked is visible on the screen, you can click the Highlight button to
view it. Click Next.
iv. Assign a logical name to the virtual object. This is the name that
appears in the test script when you record on the virtual object. If the
object contains text that WinRunner can read, the wizard suggests using this
text for the logical name. Otherwise, WinRunner suggests virtual_object,
virtual_push_button, virtual_list, etc.
v. You can accept the wizard’s suggestion or type in a different name.
WinRunner checks that there are no other objects in the GUI map with the same
name before confirming your choice. Click Next.
53. How you created you test scripts 1) by recording or 2) programming?
54. What are the two modes of recording?
There are 2 modes of recording in WinRunner i. Context Sensitive recording
records the operations you perform on your application by identifying
Graphical User Interface (GUI) objects. ii. Analog recording records keyboard
input, mouse clicks, and the precise x- and y-coordinates traveled by the
mouse pointer across the screen.
55. What is a checkpoint and what are different types of checkpoints?
Checkpoints allow you to compare the current behavior of the application
being tested to its behavior in an earlier version. You can add four types of
checkpoints to your test scripts:
i. GUI checkpoints verify information about GUI objects. For example, you can
check that a button is enabled or see which item is selected in a list.
ii. Bitmap checkpoints take a “snapshot” of a window or area of your
application and compare this to an image captured in an earlier version.
iii. Text checkpoints read text in GUI objects and in bitmaps and enable you
to verify their contents.
iv. Database checkpoints check the contents and the number of rows and columns
of a result set, which is based on a query you create on your database.
56. What are data driven tests?
When you test your application, you may want to check how it performs the
same operations with multiple sets of data.
57. What are the synchronization points?
Synchronization points enable you to solve anticipated timing problems
between the test and your application. For example, if you create a test that
opens a database application, you can add a synchronization point that causes
the test to wait until the database records are loaded on the screen.
b. For Analog testing, you can also use a synchronization point to ensure
that WinRunner repositions a window at a specific location. When you run a
test, the mouse cursor travels along exact coordinates. Repositioning the
window enables the mouse pointer to make contact with the correct elements in
the window.
58. What is parameterizing?
In order for WinRunner to use data to drive the test, you must link the data
to the test script which it drives. This is called parameterizing your test.
The data is stored in a data table.
59. How do you maintain the document information of the test scripts?
Before creating a test, you can document information about the test in the
General and Description tabs of the Test Properties dialog box. You can enter
the name of the test author, the type of functionality tested, a
detaileddescription of the test, and a reference to the relevant functional
specifications document.
60. What do you verify with the GUI checkpoint for single property and
what command it generates, explain syntax?
You can check a single property of a GUI object. For example, you can check
whether a button is enabled or disabled or whether an item in a list is
selected.
To create a GUI checkpoint for a property value, use the Check Property
dialog box to add one of the following functions to the test script:
i. button_check_info
ii. scroll_check_info
iii. edit_check_info
iv. static_check_info
v. list_check_info
vi. win_check_info
vii. obj_check_info
Syntax: button_check_info (button, property, property_value );
edit_check_info ( edit, property, property_value );
61. What do you verify with the GUI checkpoint for object/window and what
command it generates, explain syntax?
You can create a GUI checkpoint to check a single object in the application
being tested. You can either check the object with its default properties or
you can specify which properties to check.
b. Creating a GUI Checkpoint using the Default Checks
i. You can create a GUI checkpoint that performs a default check on the
property recommended by WinRunner. For example, if you create a GUI
checkpoint that checks a push button, the default check verifies that the
push button is enabled.
ii. To create a GUI checkpoint using default checks:
1. Choose Create > GUI Checkpoint > For Object/Window, or click the GUI
Checkpoint for Object/Window button on the User toolbar. If you are recording
in Analog mode, press the CHECK GUI FOR OBJECT/WINDOW softkey in order to avoid
extraneous mouse movements. Note that you can press the CHECK GUI FOR
OBJECT/WINDOW softkey in Context Sensitive mode as well. The WinRunner window
is minimized, the mouse pointer becomes a pointing hand, and a help window
opens on the screen.
2. Click an object.
3. WinRunner captures the current value of the property of the GUI object
being checked and stores it in the test’s expected results folder. The
WinRunner window is restored and a GUI checkpoint is inserted in the test
script as an obj_check_gui statement
Syntax: win_check_gui ( window, checklist, expected_results_file, time );
c. Creating a GUI Checkpoint by Specifying which Properties to Check
d. You can specify which properties to check for an object. For example, if
you create a checkpoint that checks a push button, you can choose to verify
that it is in focus, instead of enabled.e. To create a GUI checkpoint by
specifying which properties to check:
i. Choose Create > GUI Checkpoint > For Object/Window, or click the GUI
Checkpoint for Object/Window button on the User toolbar. If you are recording
in Analog mode, press the CHECK GUI FOR OBJECT/WINDOW softkey in order to
avoid extraneous mouse movements. Note that you can press the CHECK GUI FOR
OBJECT/WINDOW softkey in Context Sensitive mode as well. The WinRunner window
is minimized, the mouse pointer becomes a pointing hand, and a help window
opens on the screen.
ii. Double-click the object or window. The Check GUI dialog box opens.
iii. Click an object name in the Objects pane. The Properties pane lists all
the properties for the selected object.
iv. Select the properties you want to check.
1. To edit the expected value of a property, first select it. Next, either
click the Edit Expected Value button, or double-click the value in the
Expected Value column to edit it.
2. To add a check in which you specify arguments, first select the property
for which you want to specify arguments. Next, either click the Specify
Arguments button, or double-click in the Arguments column. Note that if an
ellipsis (three dots) appears in the Arguments column, then you must specify
arguments for a check on this property. (You do not need to specify arguments
if a default argument is specified.) When checking standard objects, you only
specify arguments for certain properties of edit and static text objects. You
also specify arguments for checks on certain properties of nonstandard
objects.
3. To change the viewing options for the properties of an object, use the
Show Properties buttons.
4. Click OK to close the Check GUI dialog box. WinRunner captures the GUI
information and stores it in the test’s expected results folder. The
WinRunner window is restored and a GUI checkpoint is inserted in the test
script as an obj_check_gui or a win_check_gui statement.
Syntax: win_check_gui ( window, checklist, expected_results_file, time );
obj_check_gui ( object, checklist, expected results file, time );
62. What do you verify with the GUI checkpoint for multiple objects and
what command it generates, explain syntax?
To create a GUI checkpoint for two or more objects:
i. Choose Create > GUI Checkpoint > For Multiple Objects or click the
GUI Checkpoint for Multiple Objects button on the User toolbar. If you are
recording in Analog mode, press the CHECK GUI FOR MULTIPLE OBJECTS softkey in
order to avoid extraneous mouse movements. The Create GUI Checkpoint dialog
box opens.
ii. Click the Add button. The mouse pointer becomes a pointing hand and a
help window opens.
iii. To add an object, click it once. If you click a window title bar or menu
bar, a help window prompts you to check all the objects in the window.
iv. The pointing hand remains active. You can continue to choose objects by
repeating step 3 above for each object you want to check.
v. Click the right mouse button to stop the selection process and to restore
the mouse pointer to its original shape. The Create GUI Checkpoint dialog box
reopens.
vi. The Objects pane contains the name of the window and objects included in
the GUI checkpoint. To specify which objects to check, click an object name
in the Objects pane. The Properties pane lists all the properties of the
object. The default properties are selected.
1. To edit the expected value of a property, first select it. Next, either
click the Edit Expected Value button, or double-click the value in the
Expected Value column to edit it.
2. To add a check in which you specify arguments, first select the property
for which you want to specify arguments. Next, either click the Specify
Arguments button, or double-click in the Arguments column. Note that if an
ellipsis appears in the Arguments column, then you must specify arguments for
a check on this property. (You do not need to specify arguments if a default
argument is specified.) When checking standard objects, you only specify
arguments for certain properties of edit and static text objects. You also
specify arguments for checks on certain properties of nonstandard objects.
3. To change the viewing options for the properties of an object, use the
Show Properties buttons.
vii. To save the checklist and close the Create GUI Checkpoint dialog box,
click OK. WinRunner captures the current property values of the selected GUI
objects and stores it in the expected results folder. A win_check_gui
statement is inserted in the test script.
Syntax: win_check_gui ( window, checklist, expected_results_file, time );
obj_check_gui ( object, checklist, expected results file, time );
63. What information is contained in the checklist file and in which file
expected results are stored?
a. The checklist file contains information about the objects and the
properties of the object we are verifying.
b. The gui*.chk file contains the expected results which is stored in the exp
folder
64. What do you verify with the bitmap check point for object/window and
what command it generates, explain syntax?
You can check an object, a window, or an area of a screen in your application
as a bitmap. While creating a test, you indicate what you want to check.
WinRunner captures the specified bitmap, stores it in the expected results
folder (exp) of the test, and inserts a checkpoint in the test script. When
you run the test, WinRunner compares the bitmap currently displayed in the
application being tested with the expected bitmap stored earlier. In the
event of a mismatch, WinRunner captures the current actual bitmap and
generates a difference bitmap. By comparing the three bitmaps (expected,
actual, and difference), you can identify the nature of the discrepancy.
b. When working in Context Sensitive mode, you can capture a bitmap of a
window, object, or of a specified area of a screen. WinRunner inserts a
checkpoint in the test script in the form of either a win_check_bitmap or
obj_check_bitmap statement.
c. Note that when you record a test in Analog mode, you should press the
CHECK BITMAP OF WINDOW softkey or the CHECK BITMAP OF SCREEN AREA softkey to
create a bitmap checkpoint. This prevents WinRunner from recording extraneous
mouse movements. If you are programming a test, you can also use the Analog
function check_window to check a bitmap.
d. To capture a window or object as a bitmap:
i. Choose Create > Bitmap Checkpoint > For Object/Window or click the
Bitmap Checkpoint for Object/Window button on the User toolbar. Alternatively,
if you are recording in Analog mode, press the CHECK BITMAP OF OBJECT/WINDOW
softkey. The WinRunner window is minimized, the mouse pointer becomes a
pointing hand, and a help window opens.
ii. Point to the object or window and click it. WinRunner captures the bitmap
and generates a win_check_bitmap or obj_check_bitmap statement in the script.
The TSL statement generated for a window bitmap has the following syntax:
win_check_bitmap ( object, bitmap, time );
iii. For an object bitmap, the syntax is: obj_check_bitmap ( object, bitmap,
time );
iv. For example, when you click the title bar of the main window of the
Flight Reservation application, the resulting statement might be:
win_check_bitmap ("Flight Reservation", "Img2", 1);
v. However, if you click the Date of Flight box in the same window, the
statement might be: obj_check_bitmap ("Date of Flight:",
"Img1", 1);
Syntax: obj_check_bitmap ( object, bitmap, time [, x, y, width, height] );
65. What do you verify with the bitmap checkpoint for screen area and what
command it generates, explain syntax?
You can define any rectangular area of the screen and capture it as a bitmap
for comparison. The area can be any size: it can be part of a single window,
or it can intersect several windows. The rectangle is identified by the
coordinates of its upper left and lower right corners, relative to the upper
left corner of the window in which the area is located. If the area
intersects several windows or is part of a window with no title (for example,
a popup window), its coordinates are relative to the entire screen (the root
window).
b. To capture an area of the screen as a bitmap:
i. Choose Create > Bitmap Checkpoint > For Screen Area or click the
Bitmap Checkpoint for Screen Area button. Alternatively, if you are recording
in Analog mode, press the CHECK BITMAP OF SCREEN AREA softkey. The WinRunner
window is minimized, the mouse pointer becomes a crosshairs pointer, and a
help window opens.
ii. Mark the area to be captured: press the left mouse button and drag the
mouse pointer until a rectangle encloses the area; then release the mouse
button.
iii. Press the right mouse button to complete the operation. WinRunner
captures the area and generates a win_check_bitmap statement in your script.
iv. The win_check_bitmap statement for an area of the screen has the
following
syntax: win_check_bitmap ( window, bitmap, time, x, y, width, height );
66. What do you verify with the database checkpoint default and what
command it generates, explain syntax?
a. By adding runtime database record checkpoints you can compare the
information in your application during a test run with the corresponding
record in your database. By adding standard database checkpoints to your test
scripts, you can check the contents of databases in different versions of
your application.
b. When you create database checkpoints, you define a query on your database,
and your database checkpoint checks the values contained in the result set.
The result set is set of values retrieved from the results of the query.
c. You can create runtime database record checkpoints in order to compare the
values displayed in your application during the test run with the
corresponding values in the database. If the comparison does not meet the
success criteria you
d. specify for the checkpoint, the checkpoint fails. You can define a
successful runtime database record checkpoint as one where one or more
matching records were found, exactly one matching record was found, or where
no matching records are found.
e. You can create standard database checkpoints to compare the current values
of the properties of the result set during the test run to the expected
values captured during recording or otherwise set before the test run. If the
expected results and the current results do not match, the database
checkpoint fails. Standard database checkpoints are useful when the expected
results can be established before the test run.
Syntax: db_check(, );
f. You can add a runtime database record checkpoint to your test in order to
compare information that appears in your application during a test run with
the current value(s) in the corresponding record(s) in your database. You add
runtime database record checkpoints by running the Runtime Record Checkpoint
wizard. When you are finished, the wizard inserts the appropriate
db_record_check statement into your script.
Syntax: db_record_check(ChecklistFileName,SuccessConditions,RecordNumber );
ChecklistFileName A file created by WinRunner and saved in the test's
checklist folder. The file contains information about the data to be captured
during the test run and its corresponding field in the database. The file is
created based on the information entered in the Runtime Record Verification
wizard. SuccessConditions Contains one of the following values:
1. DVR_ONE_OR_MORE_MATCH - The checkpoint passes if one or more matching
database records are found.
2. DVR_ONE_MATCH - The checkpoint passes if exactly one matching database
record is found.
3. DVR_NO_MATCH - The checkpoint passes if no matching database records are
found.
RecordNumber An out parameter returning the number of records in the
database.
67. How do you handle dynamically changing area of the window in the
bitmap checkpoints?
The difference between bitmaps option in the Run Tab of the general options
defines the minimum number of pixels that constitute a bitmap mismatch
68. What do you verify with the database check point custom and what
command it generates, explain syntax?
When you create a custom check on a database, you create a standard database
checkpoint in which you can specify which properties to check on a result
set.
b. You can create a custom check on a database in order to:
i. check the contents of part or the entire result set
ii. edit the expected results of the contents of the result set
iii. count the rows in the result set
iv. count the columns in the result set
c. You can create a custom check on a database using ODBC, Microsoft Query or
Data Junction.
69. What do you verify with the sync point for object/window property and
what command it generates, explain syntax?
a. Synchronization compensates for inconsistencies in the performance of your
application during a test run. By inserting a synchronization point in your
test script, you can instruct WinRunner to suspend the test run and wait for
a cue before continuing the test.
b. You can a synchronization point that instructs WinRunner to wait for a
specified object or window to appear. For example, you can tell WinRunner to
wait for a window to open before performing an operation within that window,
or you may want WinRunner to wait for an object to appear in order to perform
an operation on that object.
c. You use the obj_exists function to create an object synchronization point,
and you use the win_exists function to create a window synchronization point.
These functions have the following syntax:
Syntax:
obj_exists ( object [, time ] );
win_exists ( window [, time ] );
70. What do you verify with the sync point for object/window bitmap and
what command it generates, explain syntax?
a. You can create a bitmap synchronization point that waits for the bitmap of
an object or a window to appear in the application being tested.
b. During a test run, WinRunner suspends test execution until the specified
bitmap is redrawn, and then compares the current bitmap with the expected one
captured earlier. If the bitmaps match, then WinRunner continues the test.
Syntax:
obj_wait_bitmap ( object, image, time );
win_wait_bitmap ( window, image, time );
71. What do you verify with the sync point for screen area and what
command it generates, explain syntax?
For screen area verification we actually capture the screen area into a
bitmap and verify the application screen area with the bitmap file during
execution
Syntax: obj_wait_bitmap(object, image, time, x, y, width, height);
72. How do you edit checklist file and when do you need to edit the
checklist file?
WinRunner has an edit checklist file option under the create menu. Select the
“Edit GUI Checklist” to modify GUI checklist file and “Edit Database
Checklist” to edit database checklist file. This brings up a dialog box that
gives you option to select the checklist file to modify. There is also an
option to select the scope of the checklist file, whether it is Test specific
or a shared one. Select the checklist file, click OK which opens up the
window to edit the properties of the objects.
73. How do you edit the expected value of an object?
We can modify the expected value of the object by executing the script in the
Update mode. We can also manually edit the gui*.chk file which contains the
expected values which come under the exp folder to change the values.
74. How do you modify the expected results of a GUI checkpoint?
We can modify the expected results of a GUI checkpoint be running the script
containing the checkpoint in the update mode.
75. How do you handle ActiveX and Visual basic objects?
WinRunner provides with add-ins for ActiveX and Visual basic objects. When
loading WinRunner, select those add-ins and these add-ins provide with a set
of functions to work on ActiveX and VB objects.
76. How do you create ODBC query?
We can create ODBC query using the database checkpoint wizard. It provides
with option to create an SQL file that uses an ODBC DSN to connect to the
database. The SQL File will contain the connection string and the SQL
statement.
77. How do you record a data driven test?
We can create a data-driven testing using data from a flat file, data table
or a database.
i. Using Flat File: we actually store the data to be used in a required
format in the file. We access the file using the File manipulation commands,
reads data from the file and assign the variables with data.
ii. Data Table: It is an excel file. We can store test data in these files
and manipulate them. We use the ‘ddt_*’ functions to manipulate data in the
data table.
iii. Database: we store test data in the database and access these data using
‘db_*’ functions.
78. How do you convert a database file to a text file?
You can use Data Junction to create a conversion file which converts a
database to a target text file.
79. How do you parameterize database check points?
When you create a standard database checkpoint using ODBC (Microsoft Query),
you can add parameters to an SQL statement to parameterize the checkpoint.
This is useful if you want to create a database checkpoint with a query in
which the SQL statement defining your query changes.
80. How do you create parameterize SQL commands?
A parameterized query is a query in which at least one of the fields of the
WHERE clause is parameterized, i.e., the value of the field is specified by a
question mark symbol ( ? ). For example, the following SQL statement is based
on a query on the database in the sample Flight Reservation application:
i. SELECT Flights.Departure, Flights.Flight_Number,
Flights.Day_Of_Week FROM Flights Flights WHERE
(Flights.Departure=?) AND (Flights.Day_Of_Week=?)
SELECT defines the columns to include in the query. FROM specifies the path
of the database. WHERE (optional) specifies the conditions, or filters to use
in the query.
Departure is the parameter that represents the departure point of a flight.
Day_Of_Week is the parameter that represents the day of the week of a flight.
b. When creating a database checkpoint, you insert a db_check statement into
your test script. When you parameterize the SQL statement in your checkpoint,
the db_check function has a fourth, optional, argument: theparameter_array
argument.
A statement similar to the following is inserted into your test script:
db_check("list1.cdl", "dbvf1", NO_LIMIT, dbvf1_params);
The parameter_array argument will contain the values to substitute for the
parameters in the parameterized checkpoint.
81. What check points you will use to read and check text on the GUI and
explain its syntax?
db_connect
i. to connect to a database
db_connect(, );
b. db_execute_query
i. to execute a query
db_execute_query ( session_name, SQL, record_number );
record_number is the out value.
c. db_get_field_value
i. returns the value of a single field in the specified row_index and column
in the
session_name database session.
db_get_field_value ( session_name, row_index, column );
d. db_get_headers
i. returns the number of column headers in a query and the content of the
column headers, concatenated and delimited by tabs.
db_get_headers ( session_name, header_count, header_content );
e. db_get_row
i. returns the content of the row, concatenated and delimited by tabs.
db_get_row ( session_name, row_index, row_content );
f. db_write_records
i. writes the record set into a text file delimited by tabs.
db_write_records ( session_name, output_file [ , headers [ , record_limit ] ]
);
g. db_get_last_error
i. returns the last error message of the last ODBC or Data Junction operation
in
the session_name database session.
db_get_last_error ( session_name, error );
h. db_disconnect
i. disconnects from the database and ends the database session.
db_disconnect ( session_name );
i. db_dj_convert
i. runs the djs_file Data Junction export file. When you run this file, the
Data
Junction Engine converts data from one spoke (source) to another (target).
The
optional parameters enable you to override the settings in the Data Junction
export file.
db_dj_convert ( djs_file [ , output_file [ , headers [ , record_limit ] ] ]
);
82. Explain Get Text checkpoint from object/window with syntax?
You can use text checkpoints in your test scripts to read and check text in
GUI objects and in areas of the screen. While creating a test you point to an
object or a window containing text. WinRunner reads the text and writes a TSL
statement to the test script. You may then add simple programming elements to
your test scripts to verify the contents of the text.
b. You can use a text checkpoint to:
i. Read text from a GUI object or window in your application, using
obj_get_text and win_get_text
ii. Search for text in an object or window, using win_find_text and obj_find_text
iii. Move the mouse pointer to text in an object or window, using
obj_move_locator_text and win_move_locator_text
iv. Click on text in an object or window, using obj_click_on_text and
win_click_on_text
83. Explain Get Text checkpoint from screen area with syntax?
a. We use obj_get_text (, ) function to get the text from an object
b. We use win_get_text (window, out_text [, x1, y1, x2, y2]) function to get
the text from a window.
84. Explain Get Text checkpoint from selection (web only) with syntax?
We use win_get_text (window, out_text [, x1, y1, x2, y2]) function to get the
text from a window.
85. Explain Get Text checkpoint web text checkpoint with syntax?
Returns a text string from an object. web_obj_get_text (object, table_row, table_column,
out_text [, text_before, text_after, index]);
i. object The logical name of the object.
ii. table_row If the object is a table, it specifies the location of the row
within a table. The string is preceded by the # character.
iii. table_column If the object is a table, it specifies the location of the
column within a table. The string is preceded by the # character.
iv. out_text The output variable that stores the text string.
v. text_before Defines the start of the search area for a particular text
string.
vi. text_after Defines the end of the search area for a particular text
string.
vii. index The occurrence number to locate. (The default parameter number is
numbered 1)
86. What are the steps of creating a data driven test?
We use web_obj_text_exists function for web text checkpoints.
web_obj_text_exists ( object, table_row, table_column, text_to_find [,
text_before, text_after] );
object The logical name of the object to search.
b. table_row If the object is a table, it specifies the location of the row
within a table. The string is preceded by the character #.
c. table_column If the object is a table, it specifies the location of the
column within a table. The string is preceded by the character #.
d. text_to_find The string that is searched for.
e. text_before Defines the start of the search area for a particular text
string.
f. text_after Defines the end of the search area for a particular text
string.
87.
Searching text on the window
i. find_text ( string, out_coord_array, search_area [, string_def ] ); string
The string that is searched for. The string must be complete, contain no
spaces, and it must be preceded and followed by a space outside the quotation
marks. To specify a literal, case-sensitive string, enclose the string in
quotation marks. Alternatively, you can specify the name of a string
variable. In this case, the string variable can include a regular expression.
out_coord_array The name of the array that stores the screen coordinates of
the text (see explanation below). search_area The area to search, specified
as coordinates x1,y1,x2,y2. These define any two diagonal corners of a
rectangle. The interpreter searches for the text in the area defined by the
rectangle. string_def Defines the type of search to perform. If no value is
specified, (0 or FALSE, the default), the search is for a single complete
word only. When 1, or TRUE, is specified, the search is not restricted to a
single, complete word.
b. getting the location of the text string
i. win_find_text ( window, string, result_array [, search_area [, string_def
] ] ); window The logical name of the window to search. string The text to
locate. To specify a literal, case sensitive string, enclose the string in
quotation marks. Alternatively, you can specify the name of a string
variable. The value of the string variable can include a regular expression.
The regular expression should not include an exclamation mark (!), however,
which is treated as a literal character. For more information regarding
Regular Expressions, refer to the "Using Regular Expressions"
chapter in your User's Guide.
result_array The name of the output variable that stores the location of the
string as a four-element array.
search_area The region of the object to search, relative to the window. This
area is defined as a pair of coordinates, with x1,y1,x2,y2 specifying any two
diagonally opposite corners of the rectangular search region. If this
parameter is not defined, then the entire window is considered the search
area.
string_def Defines how the text search is performed. If no string_def is
specified, (0 or FALSE, the default parameter), the interpreter searches for
a complete word only. If 1, or TRUE, is specified, the search is not
restricted to a single, complete word.
c. Moving the pointer to that text string
i. win_move_locator_text (window, string [ ,search_area [ ,string_def ] ] );
window The logical name of the window.
string The text to locate. To specify a literal, case sensitive string,
enclose the string in quotation marks. Alternatively, you can specify the
name of a string variable. The value of the string variable can include a
regular expression (the regular expression need not begin with an exclamation
mark).
search_area The region of the object to search, relative to the window. This
area is defined as a pair of coordinates, with x1, y1, x2, y2 specifying any
two diagonally opposite corners of the rectangular search region. If this
parameter is not defined, then the entire window specified is considered the
search area.
string_def Defines how the text search is performed. If no string_def is
specified, (0 or FALSE, the default parameter), the interpreter searches for
a complete word only. If 1, or TRUE, is specified, the search is not
restricted to a single, complete word.
d. Comparing the text
i. compare_text (str1, str2 [, chars1, chars2]);
str1, str2 The two strings to be compared.
chars1 One or more characters in the first string.
chars2 One or more characters in the second string. These characters are substituted
for those in chars1.