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TPCDS BuildStatus

The Java version of the TPC-DS data generator is based on the C dsdgen distributed by the TPC organization. Here is a brief outline of the components and structure of our version of TPC-DS dsdgen and the C version that it is based on.

Getting Started

This project uses maven. To build it run mvn install.

Using the Data Generator

Tables can be generated on the command line, or within a Java program.

Generating Tables From the Command Line

If the program is run with no arguments, it will generate all of the TPC-DS tables at a scale factor of 1GB. The results will be written out to files named <table_name>.dat

java -jar tpcds-1.2-SNAPSHOT-jar-with-dependencies.jar

If you wanted to generate just the call_center table at a scale of 10GB, you would run

java -jar tpcds-1.2-SNAPSHOT-jar-with-dependencies.jar --table call_center --scale 10

For a list of all options, run --help

java -jar tpcds-1.2-SNAPSHOT-jar-with-dependencies.jar --help

Generating Tables Within a Java Program

To generate a section of a table, call Results.constructResults(table, startingRowNumber, endingRowNumber, session). This will generate a Results object. Results is an iterable, that lazily generates the next row of the table as it is called. The startingRowNumber and endingRowNumber are the boundaries of the table you would like to generate. To determine the boundaries for a particular chunk of a parallel build, call Parallel.splitWork(). The session contains the relevant options for this build including the scaling information, how many pieces you want to generate this table in, and which chunk we are up to. Look at Session.java to see the full set of items to specify.

If all you want to do with the results is write them out to a file, you could instead call TableGenerator.generateTable().

Understanding the Code

General Methodology

The goal of this project is to rewrite the generator distributed by the TPC organization from C to Java. This means we need our implementation to have the exact same behavior as the C implementation. Therefore, when the C implementation has bugs (and it has many), we copy those bugs. Generally when copying over bugs, we include a comment for clarity.

Table Definitions

In the C code, table definitions and other information associated with each table, such as the column streams (a stream is a random number generator. You have a different stream for each column) are found in the text file column_list.txt. This file gets used by mkheaders.c to create three different .h files: streams.h, columns.h, and tables.h. They are generated programmatically because they need to be kept in sync. There are many fields defined in these files that never get used. In our implementation, we try to limit the noise and only include the fields that are useful.

There are two types of tables in the C implementation: source tables and the actual tables that you are trying to generate. The files for generating source tables are prefixed with an s_. The files for generating the end-goal tables are prefixed with a w_. For example, there is s s_call_center.c and w_call_center.c. It seems that source tables are only used when the dsdgen is run with the update flag. We have not yet investigated what the update flag means or what the purpose of the source tables are. Right now we only have implementations for the w_ tables.

The Java implementation is structured as follows: for each TPC-DS table the following are defined

  • RowGenerator
    • This generates the rows for the table and returns a result containing a TableRow. It is based on the mk_w_xxx() function from the .c files for each table (w_xxx.c).
  • TableRow
    • A TableRow has as all the fields for printing a table
    • A TableRow has a getValues() method for returning String representations (or nulls for null values) of each of the columns in the table. It is based on pr_w_xxxx() from the .c files for each table (w_xxx.c).
  • Column - an enum of columns, that implement the Column interface. Each column contains:
    • globalId number
      • The globalId number comes from columns.h. It is used to set the seed for the RandomNumberStream, and to determine whether a value in a particular row should be null.
    • RandomNumberStream
      • The random number stream generates the random numbers used to generate random data for the tables.
      • The seed is set by computation based off of the global id of the column.
      • The seedsPerRow field is taken from the value in column_list.txt. At the end of the generation of a single row, if fewer numbers have been generated than seedsPerRow, then the remaining seeds are used up.
  • Table - each table contains the following:
    • tableFlags
      • This field comes from the flags defined in w_tdefs.h. Some flags defined in w_tdefs.h are never used, so we omit them.
    • nullBasisPoints
      • The field comes from w_tdefs.h and defines the proportion of rows that can be null. One basis point is equal to 1/100 of a percent.
    • notNullBitMap
      • This field comes from w_tdefs.h. It is a bitmap that defines columns that cannot be null. It is used when creating the nullBitMaps for a row that define which columns in the row should be null.
    • RowGenerator class
      • This is the class of the RowGenerator used to generate rows for the table. We use ThreadLocal instances of the row generators, because for some tables, state is shared across multiple calls.
    • A list of the columns in a table
    • ScalingInfo
      • This comes from row_counts.dst. It contains the information required to compute the row counts for the table at different scales.

Random Value Generation

Random value generation for table data can be found in genrand.h and genrand.c in the C implementation. In our implementation equivalent functionality can be found in RandomNumberStreams.java andRandomValueGenerator.java

Distributions

For many columns, values are chosen with randomness from a distribution deined in a .dst file. The .dst files contain the values to be chosen from (e.g. a list of girls' names), and sets of weights to determine the probability that any particular value is chosen (so more common names are more likely to be generated).

In the C implementation, the distribution files are compiled into a binary using dcomp.c and dcomp.h. The resulting binary file is tpcds.idx, and it goes with tpcds.idx.h.

In the Java implementation we do not compile the .dst files, instead we read them in at runtime. We put each distribution into its own file and did some slight preprocessing to make them easier to process when we read them. In particular, we removed the 'create' and 'set' statements, and from the data we remove add ( from the beginning of the lines, ); from the end of the lines, and the quotation marks from around strings. We have a utility class called DistributionUtils that contains methods that are common to many distributions, including those for reading in the distribution files. We then created separate classes for each distribution. There were many distributions whose values were all strings, or all integers. Those distributions are all instances of the same class (StringValuesDistribution and IntValuesDistributionrespectively).

Testing

We unit test the tables by taking md5 hashes of the tables that we generate and comparing them to the md5sums of the tables generated by the tables generated by the dsdgen binary. We test the tables at all defined scales as well as at a scale that is in between the defined scales, to ensure that the row computation is correct for all scenarios. For very large tables, we test the md5sums of several samples of the data. To generate the dsdgen results, run

./dsdgen -table <table-name> -scale <scale-factor> [-parallel <parallelism> -child <child-number>]

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Port of TPC-DS dsdgen to Java

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