This article is the first in a three-part series
On the Microsoft Developer Network (MSDN) forum for Reporting Services and other online discussion resources, I see many report developers asking how to building analytical reports using relational data sources. Some of the most fundamental capabilities often require complex and convoluted coding techniques. Sometimes these features require the report developer to populate temporary tables, inefficient and complicated subqueries and work-around techniques to derive calculated values and simple report features.
You probably know that OLAP cubes make this kind of reporting work much easier to manage and the data much easier to query and report on. To take that step – the transition from relational storage to SQL Server Analysis Services – also means taking a big step from the familiar T-SQL query language to the Multi-dimensional Expression query language. MDX is not a difficult language to use once you get the basic concepts down but it’s quite a bit different than SQL and it takes some re-learning to get to that point. For many, at first MDX seems strange and foreign until arriving at a moment of clarity when the mechanics of the language begin to make practical sense. Understanding concepts like “sets”, “tuples”, “members”, “hierarchies” and “levels” will help you appreciate the elegance of this simple language and the power of the OLAP query engine.
This chapter will show you many of the essential report and MDX query design techniques, beyond the fundamentals, related to OLAP reporting. I’m not going to teach you all about MDX in this short chapter so I expect that you already know some of the basics. However, I will show some examples that may help newcomers get started if you’re willing to venture out of your comfort zone. You’ll see how to use techniques in Reporting Services that will let you take advantage of the power of MDX and Analysis Services cubes. I assume that you’ve had some experience with, and understand the fundamentals of report design. I won’t demonstrate every step but I will provide enough direction to build a report if you already know the basics. You should know what to do when I provide directions like “create a new dataset with the provided query script” or “create a new parameter and use the dataset for the available values.” If you don’t have prior report design experience, there are several good books available on Reporting Services that teach essential report design. I encourage you to pick one up and learn report design basics before you read this chapter.
Just to make sure we’re on the same page; let’s briefly discuss the kinds of things that SSAS and MDX reports are typically used for. Analytical reporting is not about showing transactional details like you would on an invoice or ledger. It’s about grouping and aggregating data to analyze status, progress and trends so business leaders and analysts know what’s going on in their business at a relatively high level.
Consider the following common challenges and business scenarios:
An OLAP database, consisting of cubes and dimensions, makes it much easier to efficiently resolve these challenges without the need for writing complex queries that scan and aggregate large volumes of transactions.
To use these examples, you’ll need to have the Adventure Works Analysis Services database which you can find at codeplex.com; Microsoft’s community for sample projects and code sharing. Search for “Adventure Works SQL Server Sample Databases” and then download and install the correct version. I have tested these examples with the data for SQL Server 2008 and SQL Server 2008 R2. After installing the relational data warehouse database and the Analysis Services project, open the Enterprise Analysis services project in Business Intelligence Development Studio and then deploy and process the database on your server.
When a dataset is created and SQL Server Analysis Services is selected as the data source, the query design experience changes. The Build Query button on the dataset dialog now opens the MDX query builder. The graphical query builder is a useful tool for designing basic queries by dragging-and-dropping objects into the grid and various landing zones. Beyond this, the graphical designer doesn’t provide the flexibility to make manual modifications to the query script. Using the graphical designer, you can easily build an entire query, complete with multiple hierarchies on the rows axis and multiple measures and complete parameter filtering logic. I often use the graphical query builder to prototype an MDX query and sometimes use the query as a starting point. For highly-parameterized queries, I usually start over and write the query from scratch as you will see in the following examples.
The query builder uses a layering pattern to build MDX queries using sub select statements for each filtering slicer or parameter. This technique is an effective way to handle different filtering logic but queries can easily become overly complex, difficult to decipher and maintain. We won’t be using the graphical query builder. Use the left-most toolbar button “Edit as text” to switch to generic text mode.
Reporting Services can be used quite effectively for reporting on SSAS cubes and in most cases reports may be designed in the same manner as relational queries. However, you should be aware of the following common considerations:
Reporting Services must flatten MDX results before the data can be consumed. As a rule, place all measures on the columns axis and the initial set of dimension members on the rows axis.
One essential characteristic of trend analysis is that all periods should be represented, even if no values exist. For example, all time periods should appear on a trend line chart even if no activity is reported for a day or other time period. Include all dimension members by using the NON EMPTY directive before dimension references on an axis (usually on the rows axis.)
By default the report designer applies the SUM function to numeric fields referenced in a report group. Some measures defined in the cube may not additive. For example, a measure that performs an average, inventory count or other calculated value cannot be summed across levels of a dimension hierarchy. For these measures, use the AGGREGATE function in place of the SUM function for the report items used for group totals. Consult Books Online to understand the restrictions and properties used to control the behavior of the AGGREGATE function in Reporting Services.
next: part 2 – Building a Report [step-by-step tutorial]…