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In this lab you will create measures with DAX expressions involving filter context manipulation.

In this lab you learn how to:

• Use the CALCULATE() function to manipulate filter context
• Use Time Intelligence functions

Lab story

This lab is one of many in a series of labs that was designed as a complete story from data preparation to publication as reports and dashboards. You can complete the labs in any order. However, if you intend to work through multiple labs, we suggest you do them in the following order:

1. Prepare Data in Power BI Desktop
2. Load Data in Power BI Desktop
3. Model Data in Power BI Desktop
4. Create DAX Calculations in Power BI Desktop, Part 1
5. Create DAX Calculations in Power BI Desktop, Part 2
6. Design a Report in Power BI Desktop, Part 1
7. Design a Report in Power BI Desktop, Part 2
8. Create a Power BI Dashboard
9. Perform Data Analysis in Power BI Desktop
10. Enforce Row-Level Security

Exercise 1: Work with Filter Context

In this exercise you will create measures with DAX expressions involving filter context manipulation.

Task 1: Get started

In this task you will setup the environment for the lab.

Important: If you are continuing on from the previous lab (and you completed that lab successfully), do not complete this task; instead, continue from the next task.

1. To open the Power BI Desktop, on the taskbar, click the Microsoft Power BI Desktop shortcut.
2. To close the getting started window, at the top-left of the window, click X.
3. To open the starter Power BI Desktop file, click the File ribbon tab to open the backstage view.
4. Select Open Report.
5. Click Browse Reports.
6. In the Open window, navigate to the D:\PL300\Labs\05-create-dax-calculations-in-power-bi-desktop-advanced\Starter folder.
7. Select the Sales Analysis file.
8. Click Open.
9. Close any informational windows that may open.
10. To create a copy of the file, click the File ribbon tab to open the backstage view.
11. Select Save As.
12. If prompted to apply changes, click Apply.
13. In the Save As window, navigate to the D:\PL300\MySolution folder.
14. Click Save.

Task 2: Create a matrix visual

In this task you will create a matrix visual to support testing your new measures.

1. In Power BI Desktop, in Report view, create a new report page.
2. On Page 3, add a matrix visual.
3. Resize the matrix visual to fill the entire page.
4. To configure the matrix visual fields, from the Fields pane, drag the Region | Regions hierarchy, and drop it inside the visual.The labs use a shorthand notation to reference a field or hierarchy. It will look like this: Region | Regions. In this example, Region is the table name and Regions is the hierarchy name.
5. Add also the Sales | Sales field.
6. To expand the entire hierarchy, at the top-right of the matrix visual, click the forked-double arrow icon twice.You may recall that the Regions hierarchy has the levels Group, Country, and Region.
7. To format the visual, in the Visualizations pane, select the Format pane.
8. In the Search box, enter Stepped.
9. Set the Stepped Layout property to Off.
10. Verify that the matrix visual now has four column headers.At Adventure Works, the sales regions are organized into groups, countries, and regions. All countries—except the United States—have just one region, which is named after the country. As the United States is such a large sales territory, it’s divided into five sales regions.You’ll create several measures in this exercise, and then test them by adding them to the matrix visual.

Task 3: Manipulate filter context

In this task you will create several measures with DAX expressions that use the CALCULATE() function to manipulate filter context.

1. Add a measure to the Sales table, based on the following expression:For your convenience, all DAX definitions in this lab can be copied from the D:\PL300\Labs\05-create-dax-calculations-in-power-bi-desktop-advanced\Assets\Snippets.txt file.DAX

    Sales All Region =
   
    CALCULATE(SUM(Sales[Sales]), REMOVEFILTERS(Region))
   

   The CALCULATE() function is a powerful function used to manipulate the filter context. The first argument takes an expression or a measure (a measure is just a named expression). Subsequent arguments allow modifying the filter context.

   The REMOVEFILTERS() function removes active filters. It can take either no arguments, or a table, a column, or multiple columns as its argument.

   In this formula, the measure evaluates the sum of the Sales column in a modified filter context, which removes any filters applied to the columns of the Region table.

2. Add the Sales All Region measure to the matrix visual.
3. Notice that the Sales All Region measure computes the total of all region sales for each region, country (subtotal) and group (subtotal).The new measure is yet to deliver a useful result. When the sales for a group, country, or region is divided by this value it will produce a useful ratio known as “percent of grand total”.
4. In the Fields pane, ensure that the Sales All Region measure is selected (when selected, it will have a dark gray background), and then in the formula bar, replace the measure name and formula with the following formula:Tip: To replace the existing formula, first copy the snippet. Then, click inside the formula bar and press Ctrl+A to select all text. Then, press Ctrl+V to paste the snippet to overwrite the selected text. Then press Enter.DAX

    Sales % All Region =  
    ‎DIVIDE(  
    ‎ SUM(Sales[Sales]),  
    ‎ CALCULATE(  
    ‎ SUM(Sales[Sales]),  
    ‎ REMOVEFILTERS(Region)  
    ‎ )  
    ‎)
   

   The measure has been renamed to accurately reflect the updated formula. The DIVIDE() function divides the Sales measure (not modified by filter context) by the Sales measure in a modified context, which removes any filters applied to the Region table.

5. In the matrix visual, notice that the measure has been renamed and that a different values now appear for each group, country, and region.
6. Format the Sales % All Region measure as a percentage with two decimal places.
7. In the matrix visual, review the Sales % All Region measure values.
8. Add another measure to the Sales table, based on the following expression, and format as a percentage:DAX

    Sales % Country =  
    ‎DIVIDE(  
    ‎ SUM(Sales[Sales]),  
    ‎ CALCULATE(  
    ‎ SUM(Sales[Sales]),  
    ‎ REMOVEFILTERS(Region[Region])  
    ‎ )  
    ‎)
   

9. Notice that the Sales % Country measure formula differs slightly from the Sales % All Region measure formula.The difference is that the denominator modifies the filter context by removing filters on the Region column of the Region table, not all columns of the Region table. It means that any filters applied to the group or country columns are preserved. It’ll achieve a result that represents the sales as a percentage of country.
10. Add the Sales % Country measure to the matrix visual.
11. Notice that only the United States’ regions produce a value which is not 100%.You may recall that only the United States has multiple regions. All other countries comprise a single region, which explains why they are all 100%.
12. To improve the readability of this measure in visual, overwrite the Sales % Country measure with this improved formula.DAX

    Sales % Country =  
    ‎IF(  
    ‎ ISINSCOPE(Region[Region]),  
    ‎ DIVIDE(  
    ‎ SUM(Sales[Sales]),  
    ‎ CALCULATE(  
    ‎ SUM(Sales[Sales]),  
    ‎ REMOVEFILTERS(Region[Region])  
    ‎ )  
    ‎ )  
    ‎)
    

    Embedded within the IF() function, the ISINSCOPE() function is used to test whether the region column is the level in a hierarchy of levels. When true, the DIVIDE() function is evaluated. The absence of a false part means that blank is returned when the region column is not in scope.

13. Notice that the Sales % Country measure now only returns a value when a region is in scope.
14. Add another measure to the Sales table, based on the following expression, and format as a percentage:DAX

    Sales % Group =  
    ‎DIVIDE(  
    ‎ SUM(Sales[Sales]),  
    ‎ CALCULATE(  
    ‎ SUM(Sales[Sales]),  
    ‎ REMOVEFILTERS(  
    ‎ Region[Region],  
    ‎ Region[Country]  
    ‎ )  
    ‎ )  
    ‎)
    

    To achieve sales as a percentage of group, two filters can be applied to effectively remove the filters on two columns.

15. Add the Sales % Group measure to the matrix visual.
16. To improve the readability of this measure in visual, overwrite the Sales % Group measure with this improved formula.DAX

    Sales % Group =  
    ‎IF(  
    ‎ ISINSCOPE(Region[Region])  
    ‎ || ISINSCOPE(Region[Country]),  
    ‎ DIVIDE(  
    ‎ SUM(Sales[Sales]),  
    ‎ CALCULATE(  
    ‎ SUM(Sales[Sales]),  
    ‎ REMOVEFILTERS(  
    ‎ Region[Region],  
    ‎ Region[Country]  
    ‎ )  
    ‎ )  
    ‎ )  
    ‎)
    

17. Notice that the Sales % Group measure now only returns a value when a region or country is in scope.
18. In Model view, place the three new measures into a display folder named Ratios.
19. Save the Power BI Desktop file.The measures added to the Sales table have modified filter context to achieve hierarchical navigation. Notice that the pattern to achieve the calculation of a subtotal requires removing some columns from the filter context, and to arrive at a grand total, all columns must be removed.

Exercise 2: Work with Time Intelligence

In this exercise you will create a sales year-to-date (YTD) measure and sales year-over-year (YoY) growth measure.

Task 1: Create a YTD measure

In this task you will create a sales YTD measure.

1. In Report view, on Page 2, notice the matrix visual that displays various measures with years and months grouped on the rows.
2. Add a measure to the Sales table, based on the following expression, and formatted to zero decimal places:DAX

    Sales YTD =  
    ‎TOTALYTD(SUM(Sales[Sales]), 'Date'[Date], "6-30")
   

   The TOTALYTD() function evaluates an expression—in this case the sum of the Sales column—over a given date column. The date column must belong to a date table marked as a date table, as was done in the Create DAX Calculations in Power BI Desktop, Part 1 lab.

   The function can also take a third optional argument representing the last date of a year. The absence of this date means that December 31 is the last date of the year. For Adventure Works, June in the last month of their year, and so “6-30” is used.

3. Add the Sales field and the Sales YTD measure to the matrix visual.
4. Notice the accumulation of sales values within the year.The TOTALYTD() function performs filter manipulation, specifically time filter manipulation. For example, to compute YTD sales for September 2017 (the third month of the fiscal year), all filters on the Date table are removed and replaced with a new filter of dates commencing at the beginning of the year (July 1, 2017) and extending through to the last date of the in-context date period (September 30, 2017).Note that many Time Intelligence functions are available in DAX to support common time filter manipulations.

Task 2: Create a YoY growth measure

In this task you will create a sales YoY growth measure.

1. Add an additional measure to the Sales table, based on the following expression:DAX

    Sales YoY Growth =  
    ‎VAR SalesPriorYear =  
    ‎ CALCULATE(  
    ‎ SUM(Sales[Sales]),  
    ‎ PARALLELPERIOD(  
    ‎ 'Date'[Date],  
    ‎ -12,  
    ‎ MONTH  
    ‎ )  
    ‎ )  
    ‎RETURN  
    ‎ SalesPriorYear
   

   The Sales YoY Growth measure formula declares a variable. Variables can be useful for simplifying the formula logic, and more efficient when an expression needs to be evaluated multiple times within the formula (which will be the case for the YoY growth logic). Variables are declared by a unique name, and the measure expression must then be output after the RETURN keyword.

   The SalesPriorYear variable is assigned an expression which calculates the sum of the Sales column in a modified context that uses the PARALLELPERIOD() function to shift 12 months back from each date in filter context.

2. Add the Sales YoY Growth measure to the matrix visual.
3. Notice that the new measure returns BLANK for the first 12 months (because there were no sales recorded before fiscal year 2017).
4. Notice that the Sales YoY Growth measure value for 2018 Jul is the Sales value for 2017 Jul.Now that the “difficult part” of the formula has been tested, you can overwrite the measure with the final formula which computes the growth result.
5. To complete the measure, overwrite the Sales YoY Growth measure with this formula, formatting it as a percentage with two decimal places:DAX

    Sales YoY Growth =  
    ‎VAR SalesPriorYear =  
    ‎ CALCULATE(  
    ‎ SUM(Sales[Sales]),  
    ‎ PARALLELPERIOD(  
    ‎ 'Date'[Date],  
    ‎ -12,  
    ‎ MONTH  
    ‎ )  
    ‎ )  
    ‎RETURN  
    ‎ DIVIDE(  
    ‎ (SUM(Sales[Sales]) - SalesPriorYear),  
    ‎ SalesPriorYear  
    ‎ )
   

6. In the formula, in the RETURN clause, notice that the variable is referenced twice.
7. Verify that the YoY growth for 2018 Jul is 392.83%.It means that July 2018 sales ($2,411,559) represents a nearly 400% (almost 4x) improvement over the sales achieved at the same time of the prior year ($489,328).
8. In Model view, place the two new measures into a display folder named Time Intelligence.

Task 3: Finish up

In this task you will complete the lab.

1. To clean up the solution ready for report development, at the bottom-left, right-click the Page 2 tab, and then select Delete page.
2. When prompted to delete the page, click Delete.
3. Delete Page 3 also.
4. On the remaining page, to clear the page, select the table visual, and the press the Delete key.
5. Save the Power BI Desktop file.
6. If you intend to start the next lab, leave Power BI Desktop open.You’ll create a report based on the data model in the Design a Report in Power BI Desktop, Part 1 lab.